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ATOMIC DATA AND NUCLEAR DATA TABLES 31,215-274 (1984)
ANNOTATED BIBLIOGRAPHY ON ELECTRON COLLISIONS WITH ATOMIC
POSITIVE IONS: EXCITATION AND IONIZATION*
Y. ITIKAWA and K. TAKAYANAGI
Institute of Space and Astronautical Science Komaba, Meguroku, Tokyo 153, Japan
and
T. IWAI
Department of Liberal Arts, Kansai Medical University Hirakata, Osaka 573, Japan
A comprehensive list of papers is presented on experimental and theoretical studies of electron- impact excitation and ionization of atomic (positive) ions. The list covers the literature published from 1940 through August 1983. Bach reference is followed by a short description of the data available from the paper. Separate indices to experimental and theoretical papers by ion species are also provided.
* A revised and updated version of the previous two internal reports, IPPJ-AM-7 (1977) and IPPJ- AM-24 (1982), published by the Institute of Plasma Physics, Nagoya University.
0092-640X/84 $3.00 Copyright 0 1984 by Academic Press, Inc. All rights of reproduction in any form reserved. 215 Atomic Data and Nuclear Data Taba. Vol. 31. No. 2. srpumbr 1224
Y. ITIKAWA et al. Electron Collisions with Positive Ions
CONTENTS
INTRODUCTION . . . . . . . ..,......, . . . . . . . . . . . . . .
EXPLANATION OF TABLES . . . . . . . . . . . . . . . . . . . . .
TABLES I. Review Articles and Data Compilations . . . .
II. Experimental Papers . . , . . . . . . . . . . . . . . . . . III. Theoretical Papers . . . . . . . . . . . . . . . . . . . . . . IV. Index to Experimental Papers by Ion Species V. Index to Theoretical Papers by Ion Species . .
* . . . . . . . . . . . . . .
. . . . . . . . . . . . . . .
216
217
219 221 231 264 267
INTRODUCTION
Electron collisions with atomic positive ions are the dominant atomic processes in high-temperature plas- mas of interest to astrophysics and laboratory plasma physics. Combined with radiative processes, they deter- mine the thermal balance and degree of ionization of the plasmas. Light emission tiom the ions caused by electron- impact excitations provides a useful plasma diagnostic tool. Data on electron-ion collisions, therefore, play a fundamental role in the relevant fields of research (see the review articles listed in Table I).
Study of electron-ion collisions was started as early as 1940. The number of works reported, however, has grown considerably in the last ten years. The data available are scattered throughout the literature and their quality differs widely depending on the method by which they are obtained. It is often very difficult to find the appro- priate data when needed. To facilitate the search of data, it seems worthwhile to publish a comprehensive bibli- ography on electron-ion collisions.
The present paper gives a list of the works published from 1940 through August 1983 on experimental and theoretical studies of excitation and ionization of atomic (positive) ions by electron impact. No special selection of papers has been made in the preparation of the list. No restriction has been imposed with respect to either the ionic species or the collision energies covered. To help users in finding specific data, a short description of the content is attached to each paper listed. Thus the present
bibliography will serve as a general index to available data on electron-impact excitation and ionization of atomic ions. The present bibliography is based on two preceding ones published as internal reports: IPPJ-AM- 7 ( 1977) and IPPJ-AM-24 ( 1982) of the Institute of Plasma Physics, Nagoya University. To make the bibliography more complete, some rearrangements and additions have been made.
The list of papers is divided into three tables: I, Review Articles and Data Compilations; II, Experimental Papers; and III; Theoretical Papers. Following these list- ings, indices by ion species are given for the papers in Tables II and III separately.
Numerical data (cross sections or rate coefficients) available from the papers listed here are too numerous to be presented in print in a compact and convenient form. Such data are being compiled into computerized data bases at several data centers around the world. For instance, most of the original cross sections reported in recent (b1970) papers are stored in the data base (called AMDIS) at the Research Information Center, Institute of Plasma Physics, Nagoya University, and are accessible on-line. Various efforts are also under way to evaluate the original data in order to produce sets of recommended values to assist users (see the data compilations listed in Table I). This bibliography should be helpful in such activities.
Y. ITIKAWA et al. Electron Collisions with Positive Ions
EXPLANATION OF TABLES
TABLE I. Review Articles and Data Compilations
TABLE II. Experimental Papers
TABLE III. Theoretical Papers
In each Table, the listings are arranged in groups by year of publication and, within each group, alphabetically by the name of the first author. Each entry contains the following:
(1) The record number (e.g., 61 El) The first two digits correspond to the year of publication. E, T, or
R identifies the type of the paper as primarily experimental, theoretical, or a review or compilation, respectively. The index number at the end distinguishes each paper from all other papers of the same type in a given year. The record numbers here are identical to those used in the antecedent reports IPPJ-AM-7 and -24. In the present listings, entries from the two reports are combined in alphabetical order but not necessarily in ascending order of the index number.
(2) Names of all the authors
(3) Journal name, volume, page, and year of publication
(4) Title
(5) Abbreviated description of the contents
Typically indicated are the (experimental or theoretical) method of obtaining the data, the transitions considered, and the range of electron energies. Giving the collision energy here implies that cross sections or collision strengths are reported in the paper. When rate coefficients are available, the word “rate” appears followed by the temperature range (sometimes expressed in energy units). In some instances, fuller infor- mation is given on the ionic species and the process (see (6) below). Abbreviations used in these descriptions are listed below:
AI BEA BO CB CB’ CBE CBO CBX
cc CDW DCS DW DWPG DWX
ECIP ER
autoionization binary encounter approximation Born-Oppenheimer approximation Coulomb-Born approximation Coulomb-Bethe approximation Coulomb-Born-exchange method Coulomb-Born-Ochkur approximation Coulomb-Born approximation with electron exchange taken
into account close-coupling method Coulomb-distorted-wave method differential cross section distorted-wave method distorted-wave polarized-orbital method distorted-wave method with electron exchange taken into ac-
count exchange classical impact parameter method exact resonance
217 Atomic Data and Nucbw Data Tttbka. Vol. 31, No. 2. Se#mber 1884
Y. ITIKAWA et al. Ekctron Collisions with Positive Ions
EXPLANATION OF TABLES cont.
&c FOEC HF Ion IP, IPM
SC Th X Y
electron-impact excitation first-order exchange Coulomb approximation Hartree-Fock wave function electron-impact ionization impact parameter method R-matrix method semiclassical approximation threshold electron energy in threshold unit electron temperature in threshold units
(6) Ionic species and relevant process In the right margin, the ionic species dealt with in the paper are
shown with an indication of the process (Excitation or Ionization). Spec- troscopic notation (e.g., He II for He+) is used for individual ions. Isoelectronic sequences are specified by listing the corresponding neutral atom and the range of nuclear charge 2, i.e., H-like 2 = 2, 3, 4, co in 63 T5 means He II, Li III, Be IV, and the limit of H-like ions with Z-+00.
TABLE IV. Index to Experimental Papers by Ion Species
TABLE V. Index to Theoretical Papers by Ion Species
In the indices, ions are grouped into isoelectronic sequences in ascending order of number of electrons (N). The record numbers of the papers associated with electron-impact excitation (Exe) and ionization (Ion) are listed to the right of the corresponding spectroscopic symbols.
218 Alom4c Data and Nudnr Data T&lea. Vol. 31, No. 2. !3PMIbW 1934
Y. ITIKAWA et al. Electron Collisions with Positive Ions
1966
66
1969
69 Rl
1972
72 Rl
72 R2
1975
75 Rl
1976
76 Rl
76 RZ
1977
77 Rl
77 R2
1979
79
79 R2
1980
80 Rl
80 R2
80 R3
TABLE I. Review Articles and Data Compilations See page 217 for Explanation of Tables
L.J. Kieffer and G.H. Dunn, Rev. Mod. Phys. 38 1 (1966) Electron impact ionization cross section datafor atoms, atomic ions, and diatomic mole- cules : I. Experimental data
[Ion, review]
K.T. Dolder, in: Case Studies in Atomic Collision Physics 1, McDowell (North-Holland 1969) p. 249
ed. by E.W. McDaniel and M.R.C.
Experiments with colliding charged-particle beams [review on experiments]
A.H. Gabriel and C. Jordan, in: Case Studies in Atomic Collision Physics 2, ed. by E.W. McDaniel and M.R.C. McDowell (North-Holland 1972) p. 209 Interpretation of spectral intensities from laboratory and astrophysical plasmas
[review on atomic data related to plasma spectroscopy]
H.-J. Kunze, Space Sci. Rev. 13 565 (1972) Measurements of collisional rze coefficients in laboratory plasmas
[review on plasma experiments]
M.J. Seaton, Adv. At. Mol. Phys. 11 83 (1975) Electron impact excitation of pos‘iiive ions
[&, review]
K.T. Dolder and B. Peart, Rep. Prog. Phys. 39 693 (1976) Collisions between electrons and ions -
[review on experiments]
L.P. Presnyakov, Sov. Phys. Uspekhi 19 387 (1976) X-ray spectroscopy of high-temperature plasma
[review on atomic data related to plasma spectroscopy]
A. Burgess, 275 (1977)
H.P. Summers, D.M. Cochrane and R.W.P. McWhirter, Mon. Not. R. Astr. Sot. 179 -
Cross-sections for ionization of positive ions by electron impact [Ion1
N.H. Magee Jr., J.B. Mann, A.L. Merts and W.D. Laboratory (1977)
Robb, LA-6691-MS, Los Alamos Scientific
Electron impact excitation of carbon and oxygen ions [%, c II-w, 0 ~-Vml
G.H. Dunn? in: Atomic Processes in Fusion Plasmas, IPPJ-AM-13, Institute of Plasma Physics, Nagoya University, ed. by Y. Itikawa and T. Kato, p. 57 (1979) Electron-ion collisions: Experimental
[review]
S. Nakazaki and T. Hashino, IPPJ-AM-12, Institute of Plasma Physics, Nagoya University (1979) Electron impact excitation of positive ions calculated in the Coulomb-Born approximation-A data list and comparative survey-
[Excl
H. Jakubowicz and D.L. Moores, Comments At. Mol. Phys. 2 55 (1980) Electron-impact ionization of positive ions
[Ion, review of CBX]
J.Wm. McGowan, in: Electronic and Atomic Collisions, Holland 1980) p. 237
ed. by N. Oda and K. Takayanagi (North-
Electron-ion collisions-An update [review]
A.L. Merts, J.B. Mann, W.D. Robb and N.H. Magee Jr., Laboratory (1980)
LA-8267-MS, Los Alamos Scientific
Electron excitation collision strengths for positive atomic ions: A collection of theoreti- cal data
[&, Be II, C IlI,lV, N lV,V, 0 m-VI, Fe W-XUV, MO M-XL]
NeW,VIU,ALV,VI,Si IV,W, S lV,Arw,WI,CaX,
219
Y. ITIKAWA et al. Electron Collisions with Positive Ions
TABLE I. Review Articles and Data Compilations !3ee page 2 17 for Explanation of Tables
80 R4
1981
81 Rl
81 R2
81 R3
81 R4
81 R5
81 R6
81 R7
1982
82 Rl
82 R2
82 R3
82 R4
82 R5
1983
83 Rl
83 R2
83 R3
83 R4
83 R5
W.D. Robb, in: Atomic and Molecular Processes in Controlled Thermonuclear Fusion, ed. by M.R.C. McDowell and A.M. Ferendeci (Plenum? 1980) p. 245 Theoretical studies of electron impact excitation of positive ions
[&, review on theory]
V.A. Bazylev and M.I. Chibisov, Sov. Phys. Uspekhi 24 276 (1981) Excitation and ionization of multicharged ions by ei&tron collisions
[review, mainly on theory] R.D. Cowan, Physica Ser. 24 615 (1981) Progress in the spectroscopy of highly ionized atoms and its use in plasma diagnostics
[electron collisions are mentioned]
D.H. Crandall, Physica Ser. 23 153 (1981) Electron impact ionization ofmulticharged ions
[Ion, review]
R.J.W. Henry, Phys. Rept. 68 1 (1981) Excitation of atomic positze ions by electron impact
[&, review]
Y. Itikawa,and T. Kato, IPPJ-AM-17, Institute of Plasma Physics, Nagoya University (1981) Empirical formulas for ionization cross section of atomic ions for electron colli- sions-critical review with compilation of experimental data-
[Ion1 - D.L. Moores and H. Nussbaumer, Space Sci. Rev. 29 379 (1981) The relevant atomic data
-
[for solar observations]
M.S. Pindzola and D.H. Crandall, ORNL/TM-7957, Oak Ridge National Laboratory (1981) A Compilation of theoretical electron-impact excitation cross sections for Fe atomic ions
[E, Fe IX-XXVI]
K.L. Bell, H.B. Gilbody, J.G. Hughes, A.E. Kingston and F.3. Smith, Culham Laboratory Report, CLM-R216 (1982) Recommended cross sections and rates for electron ionization of light atoms and ions
[Ion, recommended data]
D.H. Crandall, in: Physics of Electronic and Atomic Collisions, ed. by S. Datz (North- Holland 1982) p. 595 Experiments on collisions of electrons and multicharged ions
[review on experiment]
R.J.W. Henry, in: Physics of Electronic and Atomic Collisions, ed. by S. Datz (North- Holland 1982) p. 609 Excitation processes in collisions of electrons with multicharged ions
[&, review on theory]
D.L. Moores, in: Physics of Electronic and Atomic Collisions, ed. by S. Datz (North-Holland 1982) p. 623 Ionization processes in collisions of electrons with multicharged ions
[Ion, review on theory]
S.M. Younger, Comments At. Mol. Phys. 11 193 (1982) Current theoretical problems in the el=tron impact ionization of positive ions
[Ion, review on theory]
D.M. Cochrane and R.W.P. McWhirter, Physica Ser. 28 25 (1983) Collisional excitation rate coefficients for lith=m-like ions
[E, recommended data for Li-like ions]
D.H. Crandall, in: Physics of Ion-Ion and Electron-Ion Collisions, ed. by F. Brouillard and J.W. McGowan (Plenum 1983) p. 201 Electron impact excitation of ions
[review]
D.H. Crandall, in: Atomic Physics of Highly Ionized Atoms, ed. by R. Marrus and J.P. Briand (Plenum 1983)
[review]
Y. Hahn, Comments At. Mol. Phys. 13 103 (1983) Higher-order atomic processes in Kgh temperature plasmas
[review on higher order effects (autoionization, etc.)]
Y. Itikawa, S. Hara, T. Kato, S. Nakazaki, M.S. Pindzola and D.H. Cranda Institute of Plasma Physics, Nagoya University (1983) Recommended data on excitation of carbon and oxygen ions by electron co11
[E, recommended data for carbon and oxygen ions]
11, IPPJ-AM-27,
isions
220
Y. ITIKAWA et al. Electron Collisions with Positive Ions
TABLE II. Experimental Papers See page 2 17 for Explanation of Tables
1961
61 El
1962
62 El
1963
63 El
63 E2
1964
64 E2
64 El
1965
65 El
1966
66 El
66 E2
66 E3
66 ES
66 E4
1967
67 El
K.T. Dolder, M.F.A. Harrison and P.C. Thonemann, 367 (1961) A measurement of the ionization cross-section of tron impact
[beam, 54-lOOOeV]
M.F.A. Harrison, K.T. Dolder and P.C. Thonemann, Gases, ed. by H. Maecker, vol. 2, p, 1251 (1962) The measurement of the ionization cross sections impact
[beam, 54-lOOOeV]
K.T. Dolder, M.F.A. Harrison and P.C. Thonemann, 546 (1963)
A measurement of the ionization cross section of tron impact
[beam, SO-lOOOeV]
M.F.A. Harrison, K.T. Dolder and P.C. Thonemann, 368 (1963)
Proc. Phys. Sot. 82 -
A measurement of the cross section for the ionization of N+ to N2+ by electron impact
[beam, ZO-SOOeV]
Proc. Roy. Sot. A264 -
helium ions by elec-
Ioniz. Phenom. in
of ions by electron
Proc. Roy. Sot. A=
Ne+ to Ne2+ by elec-
S.E. Kupriyanov and Z.Z. Latypov, Sov. Phys. JETP E 558 (1964) Ionization of positive ions by electron impact
[beam, lo-SOOeV]
Z.Z. Latypov, S.E. Kupriyanov and N.N. Tunitskii, Sov. Phys. JETP 19 570 (19641 Ionization encounters of electrons with ions and atoms
[beam, lo-SOOeV]
F.A. Baker and J.B. Hasted, 4th ICPEAC, p. 447 (1965) Ionisation d’ions positifs par impact d’electrons
[trapped ion, 24-40eV, relative]
F.A. Baker and J.B. Hasted, Phil. Trans. Roy. Sot. A261 33 (1966) Electron collision studies with trapped positive ions
[trapped ion, relative]
D.F. Dance, M.F.A. Harrison and A.C.H. Smith, Proc. Roy. Sot. A290 74 (1966)
A measurement of the cross section for production of He+(ZS) ions by electron impact excitation of ground state helium ions
[beam, ls-2s Th-750eV, relative]
E. Hinnov, J. Opt. Sot. Am. 56 1179 (1966) Excitation and ionization ra=s of neon ions in a stellarator dis- charge
[plasma, rate: lo-SOeV]
J.W. Hooper, W.C. Lineberger and F.M. Bacon, Phys. Rev. 141, 165 (1966) Absolute cross sections for single ionization of alkali ions by elec-
tron impact. II. Na+ and K+ results and comparison with theory [beam, Th-lOOOeV]
W.C. Lineberger, J.W. Hooper and E.W. McDaniel, Phys. Rev. 141, 151 (1966)
Absolute cross sections for single ionization of alkali ions by elec-
tron impact. I. Description of apparatus and Li+ results [beam, 76-800eV]
N.R. Daly and R.E. Powerll, Phys. Rev. Lett. 19, 1165 (1967) Electron-impact excitation of the 2S state ana-autoionization below
the n=3 level of He+ (experimental)
He II Ion -
He II Ion -
Ne II Ion -
NE Ion -
Kr Il, Xe II, Hg II Ion -
Ne II, Ar II,DI, Kr lI,DI. Xe lII, Hg n,m Ion -
Kr II Ion -
Ne II, Ar II, Kr II, Xe II Ion -
He II Exe -
Neg+ (g = l-7) Exe/Ion --
Na II, K II Ion -
Li II Ion -
He II Exe
221
Y. ITIKAWA et al. Electron Collisions with Positive Ions
TABLE II. Experimental Papers See page 2 17 for Explanation of Tables
[trapped ion, lS-2S 41-54 eV, relative]
67 E2 R.C. Elton and W.W. Koeppendoerfer, Phys. Rev. 160, 194 (1967) Measured collisional excitation rate coefficients for oxygen VII.
[plasma, n = 1 - 2, rate: (250 f 60)eV]
67 E3 A.M. Emel’yanov, Yu.S. Khodeyev and L.N. Gorokhov, 5th ICPEAC, p. 46 (1967)
Electron impact ionization of Cs+ ions [trapped ion, near Th, relative]
67 E4 E. Hinnov, J. Opt. Sot. Am. 57, 1392 (1967) Revision of the temperature Zpendence of the ionization rates of neon ions
[revision of 66 E3]
67 ES P.A. Redhead, Can. J. Phys. 45, 1791 (1967) Multiple ionization of the rare gas by successive electron impacts (O-250 eV)
[trapped ion, O-250 eV, relative]
67 E6 J.B. Wareing and K.T. Dolder, 5th ICPEAC, p. 43 (1967)
Measurement of cross sections for the ionization of Li+ to Li ‘+ by electron impact
[beam, 75-1000 eV]
67 E7 J.B. Wareing and K.T. Dolder, Proc. Phys. Sot. 91, 887 (1967)
A measurement of the cross section for ionization of Li+ to Li ‘+ by electron impact
[beam, 75-1000 eV]
1968
68 El H.-J. Kunze, A.H. Gabriel and H.R. Griem, Phys. Rev. 165, 267 (1968) Measurement of collisional rate coefficients for helium-like carbon ions in a plasma
[plasma, excitation from n=l to n =2 singlet and n = 2 triplet to n = 2 singlet, ionization from n =l and n =2 triplet, rate: 205-240 eV]
68 E2 P. Mahadevan, Douglas Adv. Res. Lab. Res. Communic. 84, (1968) Electron impact ionization of positive ions and atoms using a coaxial beam technique.
[beam, Th-300 eV, relative]
68 E3 S.O. Martin, B. Peart and K.T. Dolder, J. Phys. Bl, 537 (1968)
Measurements of cross sections for the ionization of Mg* to Mg ‘+ by electron impact.
[beam, Th-2000 eV]
68 ES B. Peart and K.T. Dolder, J. Phys. B 1, 240 (1968)
Measurements of cross sections for the ionization of Na+ to Na 2+ and
K+ to K2+ by electron impact. [beam, Th-3500 eV]
68 E6 B. Peart and K.T. Dolder, J. Phys. B 1, 872 (1968)
Measurements of cross sections for the ionization of Li+ and Ba+ ions by electron impact
[beam, Th-3000 eV]
68 E4 A.N. Prased and M.F. El-Menshawy, J. Phys. B 1, 471 (1968) Triplet to singlet excitation of C V ions in Leigh-temperature plasmas
[plasma, n = 1 - 2, rate: 40eV]
68 E7 P.A. Redhead and S. Feser, Can. J. Phys. 46, 865 (1968) Multiple ionization of the rare gas by successive electron impacts
(O-250 eV). II. lS-2S transition in ‘He+ [trapped ion, lS-2S O-250 eV, relative]
68 E8 P.A. Redhead and S. Feser, Can. J. Phys. 5, 1905 (1968) Multiple ionization of mercury by successive electron impacts.
[trapped ion, O-250 eV, relative]
1969
69 El K.L. Aitken, M.F.A. Harrison and R.D. Rundel, 6th ICPEAC p. 614 (1969) Electron impact ionization of ions of atmospheric gases
[beam, lo-900 eV]
0 W Exe -
cs II Ion -
Neg+ Ion -
He+, Neg+ (g = l-
S), Arg+ (g = l-6))
Krg+ (g = l-7),
;c;+ (g = l-10) - Li II Ion -
Li II Ion -
cv Exe/Ion --
He II Ion -
Mg n Ion -
NaII,KII Ion
Li II, Ba II Ion -
C V Exe -
He II Exe
;ti+ (g = l-9) -
NDI Ion -
222 Atomic Data acd Nucbar Datm Tahbm. Vol. 31. NO. 2.3OPtUMU $334
Y. ITKAWA et al. Ekztron Collisions with Positive Ions
TABLE II. Experimental Papers See page 2 17 for Explanation of Tables
69 E2
69 E3
69 ES
69 E4
69 E6
69 E7
69 E8
69 E9
69 El0
1970 70 E2
70 E3
1971 71 El
71 E2
71 El1
71 E3
F.M. Bacon and J.W. Hooper, Phys. Rev. 178, 182 (1969) Relative experimental cross sections for excitation of Ba+ ions by elec- tron impact (8.0-98 eV)
[beam, 6S-6P 8.0-98 eV, relative] M.T. Elford, R.K. Feeney and J.W. Hooper, 6th ICPEAC, p. 620 (1969) Absolute experimental cross sections for single ionization of Ba+ ions by electron impact
[beam, Th-1000 eV] P. Mahadevan, 6th ICPEAC, p. 617 (1969) Ionization of positive ions of atomic and molecular nitrogen by elec- trons
[beam, O-250 eV, relative] M.O. Pace and J.W. Hooper, 6th ICPEAC, p. 266 (1969) Absolute experimental cross sections for excitation of Ba+ ions by electron impact
[beam, 6S-6P 2.5-10 eV] B. Peart, S.O. Martin and K.T. Dolder, 6th ICPEAC, p. 1 (1969) Recent measurents of cross sections for the ionization of ions by elec- tron impact
[beam, Li+ - Li2+, Li3+ Th-2500 eV] B. Peart and K.T. Dolder, J. Phys. B. 2, 1169 (1969) The ionization of Li+ to Li3+ by electron impact
[beam, Li+ - Li3+ Th-2500 eV] B. Peart, S.O. Martin and K.T. Dolder, J. Phys. B 2, 1176 (1969) Measurements of electron impact ionization cross section of Mg 2+ ions and a note on the classical scaling law
[beam, Th-3000 eV] B. Peart, D.S. Walton and K.T. Dolder, J. Phys. B 2, 1347 (1969) The ranges of validity of the Born and &the approximations for the single ionization of He+ and Li+ ions by electron impact
[beam, Th-2SOO eV] P.A. Redhead, Can. J. Phys. 41. 2449 (1969) Multiple ionization in carbon monoxide by successive electron impacts
[trapped ion, O-200 eV, relative]
Ba II Exe -
Ba II Ion -
NII Ion -
Ba II Exe -
Li II, Mg III Ion -
Li II Ion -
Mg III Ion
He II, Li II Ion -
cg+ (g=l-4), og+ (g=l-6) Ion
B.C. Boland, F.C. Jahoda, T.J.L. Jones and R.W.P. McWhirter, J. Phys. NV Exe B 3, 1134 (1970) 'LaiYoratory measurements of excitation coefficients for five transitions in nitrogen V.
[plasma, 2S-2P, 3S, 3P, 3d, 4P rate: 2.1x105K] P.A. Redhead, Can. J. Phys. 48, 1906 (1970) Sequential-impact mass spectroscopy; pressure dependence of ion cur- Neg4 (g=l-4) rents from trapped-ion sources
[trapped ion, O-200 eV, relative] ;;i+ (g = 1-5)
K.L. Aitken and M.F.A. Harrison, J. Phys. B 4, 1176 Measurements of the cross sections for electron impact ionizations of
0 lI,III Ion
multi-electron ions. I. 0+ to 02+ and 02+ to 03+ (beam, Th-1000 eV]
K.L. Aitken, M.F.A. Harrison and R.D. Rundel, J. Phys. B 4, 1189 (1971) ClI,NIU Ion Measurement of the cross sections for electron impact ionization of
-
multi-electron ions. II. N 2+ to N3+ and C+ to C2+, [beam, Th-900 eV]
I.L. Beigman, L.A. Vainshtein, A.P. Dronov and E.M. Kudryavtsev, Sov. Sr II, Ba II Phys. JETP 32, 1079 (1971) Effective cross sections for electron excitations of transitions be- tween excited states of the ions Ba+ and Sr+
[plasma, relative rates: 1.25 x104K] W.D. Johnston III and H.-J. Kunze, Phys. Rev. A!, 962 (1971) N lV, 0 V, Ne VI, Measurements of collisional-excitation rate coefficients for beryllium- Si IX Exe like ions
-
[plasma, n= 2-2,3,4 rate: 67-260 eV1
223 Atomic Date at-d NUC1Oar Data Tablsr. Vol. 31. No. 2.3evtNnt~~ 1934
Y. ITIKAWA et al. Electron Collisions with Positive Ions
TABLE II. Experimental Papers See page 2 17 for Explanation of Tables
71 E4
71 ES
71 E6
71 E9
71 El0
71 E7
71 E8
1972 72 El
72 E2
72 E3
72 E4
72 ES
72 E6
1973 73 El
73 E3
73 E2
H.-J. Kunze, Phys. Rev. AZ, 937 (1971) Collisional ionization rates for lithium- and beryllium-like ions
[plasma, rate: 100-260 eV] H.-J. Kunze and W.D. Johnston III, Phys. Rev. AZ, 1384 (1971) Experimental rate coefficients for collisional excitation of lithium- like ions
[plasma, 2S-2P rate: 110-260 eV] H.-J. Kunze, Phys. Rev. AA, 111 (1971) Collisional excitation of the 42F levels in lithium-like Ne VIII
[plasma, 2S-4P,4f rate: 125-260 eV] P.A. Redhead and C.P. Gopalaraman, Can. J. Phys. e? 585 (1971) Multiple ionization of cesium and barium by successive electron impact
[trapped ion, 50-250 eV, relative]
P.A. Redhead, Can. J. Phys. 9, 3059 (1971) Sequential impact mass spectroscopy: Estimates of metastable ion cross sections
[trapped ion, ionization from metastable states, 40-100 eV, rel- ative]
P.O. Taylor and G.H. Dunn, 7th ICPEAC, P. 696 (1971) Crossed-beam measurement of the excitation of the H and K lines
[beam, 4S-4P Th-100 eV] G. Tondello and R.W. McWhirter, Measurements of excitation rate transitions of neon VII.
[plasma, ZS-2P,3S,3d, etc.
cross-skctions‘for electron impact of Ca II.
J. Phys. B 4, 715 (1971) coefficients for singlet and triplet
rate: 2.1 x 106K]
R.U. Dalta, H.-J. Kunze and D. Petrini, Phys. Rev. A?, 38 (1972) Collisional rate coefficients for sodium-like Ar VIII ions
%sma 9 excitation (3S-n= 3,4,5) and ionization, rate: 62,260
W. Engelhardt, W. Koeppendoerfer and J. Sommer, Phys. Rev. AC, 1908 (1972)
Measurement of the depopulation of the 23Po 1 2 levels of helium-like t 3
ions by electron collisions [plasma, de-excitation and ionization of 23P, rate: 160-215 eV]
R.K. Feeney, J.W. Hooper and M.T. Elford, Phys. Rev. Aa, 1469 (1972) Absolute experimental cross sections for the ionization of singly charged barium ions by electron impact
[beam, 10-1000 eV] J.B. Hasted and G.L. Awad, J. Phys. B 1, 1719 (1972) Electron impact ionization of ions trapped in a hollow electron beam
[trapped ion, Th-500 eV, relative] A.I. Imre, A.I. Dashchenko, I.P. Zapesochnyi and V.A. Kel'man, Sov. Phys. JETP Lett. 15, 503 (1972) Cross sections for the excitation of Ar IIlaser lines in electron-ion collisions
[beam, 4S-4P Th-35 eV, relative] P. Mahadevan, Proc. Roy. Sot. A327, 317 (1972) Merging beams study of ionizationof positive ions by electrons
[beam, Th-300 eV, relative]
J.N. Bradbury, T.E. Sharp, B. Mass and R.N. Varney, Nucl. Inst. a Methods 110, 75 (1973) Electron impact excitation and ionization of N4+
[beam, 2S-2P 125-400 eV] D.H. Crandall, P.O. Taylor and G.H. Dunn, 8th ICPEAC, p. 330 (1973) Excitation of the 62P3,2 level of Ba Eby electron impact and polari- _.. - zation of the emitted radiations
[beam, 6S-6P 2.72-750 eV] K.T. Dolder and B. Peart, J. Phys. B 6, 2415 (1973) A measurement of cross sections for the lS-2s excitation of He+ ions
C lV, N V, 0 V,U, Ne M Ion -
NV,OVI,NeVIU Exe -
Ne VIII Exe
csg+ (g = l-91 , ;3:+ (g = l-9) -
Arg+ Ion (g = l-61 -
Ca II Exe
Ne VII Exe -
Ar VIII Exe/Ion --
CV,NM,OW, FVllI,NeM Exe/Ion --
Ba II Ion -
Ng+, Neg+, Arg+ (g = l-3) Ion -
Ar II Exe -
He II, N II, 0 II Ion -
N V Exe -
Ba II Exe -
He II Exe -
224 Atomk Oata and Nucbw Oata Tab&J. Vd. 31. No. 2. SQSMdU 1004
Y. ITIKAWA et al. Electron Collisions with Positive ions
TABLE II. Experimental Papers See page 2 I7 for Explanation of Tables
73 E4
73 ES
73 E6
73 E7
73 E8
73 E9
1974
74 El
74 ES
74 E4
1975
75 El
75 E2
75 El3
75 El4
75 E4
75 ES
by electron impact [beam, lS-2s 40-1000 eV]
G.N. Haddad and R.W.P. McWhirter, J. Phys. B 6, 715 (1973) Measurements of excitation rate coefficients Toor some Ne VIII lines
[plasma, 2S-2P,3S,3P, 2P-3d rate: (1.5, 2.2) x 106K]
J.B. Hasted, M. Humdun and G.L. Awad, 8th ICPEAC, p. 417 (1973) Ionization of positive ions by electrons in the hollow beam trap
[2pg ions, semi-empirical]
M.O. Pace and J.W. Hooper, Phys. Rev. A7, 2033 (1973) Absolute experimental cross section for the excitation of barium ions by electron impact
[beam, 6S-6P 2.5-98 eV]
B. Peart, J.G. Stevenson and K.T. Dolder, J. Phys. B 6, 146 (1973)
Measurements of cross sections for the ionization of Ba+ by energy resolved electrons.
[beam, lo-24 eV]
P.O. Taylor and G.H. Dunn, Phys. Rev. A!, 2304 (1973) Absolute cross sections and polarization for the K and H resonance
lines of the Ca+ ion [beam, 4S-4P, 3-700 eV]
I.P. Zapesochnyi, A.I. Irme, A.I. Dashchenko, V.S. Vukstich, F.F. Danch and V.A. Kel’man, Sov. Phys. JETP 36, 1056 (1973) Experimental investigation of the excitation iif Ar II and Kr II in electron-ion collisions
[beam, 4S-4P, SS-5P Th-35eV, relative]
D.H. Crandall, P.O. Taylor and G.H. Dunn, Phys. Rev. Ag, 141 (1974)
Electron-impact excitation of the Ba+ ion [beam, 6S-6P, 6P-7S, 6d 2.5-747 eV]
D.H. Crandall, G.H. Dunn, A. Gallagher, D.G. Hummer, C.V. Kunasz, D. Leep and P.O. Taylor, Astrophys. J. 191, 789 (1974) Rate coefficients for electron excitationof the first resonance
transition in H, Li, Na, Ca, Ca+, and Ba+ calculated from experiment- al data
[rate for 4S-4P, 6S-6P]
A.I. Irme, A.I. Dashschenko, F.F. Danch and F.F.Matei, Ukr. Fiz. Zh. 19, No. 10 (1974) [Russian] Excitation of Kr III spectral lines when slow electrons collided with doubly-charged krypton ions
D.H. Crandall, R.A. Phaneuf and G.H. Dunn, Phys. Rev. All, 1223 (1975)
Electron impact excitation of Hg+ [beam, 6S-6P 7.6-273.8 eV]
R.U. Datla, M. Blaha and H.-J. Kunze, Phys. Rev. A12, 1076 (1975) Collisional rate coefficients for the iron ions Fern, Fe IXand Fe X
[plasma, rate: SO-142 eV]
A.I. Dashchenco, I.P. Zapesochnyi and A.I. Irme, Sov. Phys. JETP Lett. 19, 137 (1975) Helium ion resonance line in electron-ion collisions
[beam, lS-2P Th-300 eV, relative]
A.I. Dashchenko, I.P. Zapesochnyi, A.I. Irme, V.S. Bukstich, F.F. Danch and V.A. Kel’man, Sov. Phys. JETP 40, 249 (1975)
Excitation of the resonance level of He+ in electron-atom, electron- ion and ion-atom collisions
[beam, lS-2P Th-300 eV, relative]
J.M. Green and C.E. Webb, J. Phys. B 8, 1484 (1975)
Second-kind collisions of electrons with excited Cd+, Ca+, Ga+, TK+
and Pb+ ions [flowing afterglow, quenching of excited states]
J.E. Hansen, J. Phys. B S, 2759 (1975)
The structure of the autoionizing p’ds configurations in Mg II,.Ca II. Sr II and Ba IIand interpretation of electron impact cross sections for these ions
Ne VIII Exe -
Ion -
Ba II Exe -
Ba II Ion -
Ca II Exe -
Ar II, Kr II Exe -
Ba II Exe -
Call, BaII Exe
Kr III Exe -
Hg II Exe -
Fe VIU,M,X Exe/Ion --
He II Exe -
He II Exe -
Ca II, Ga II, Cd II,
TL II, Pb II Exe -
Mg II, Ca II, Sr If, Ba II Ion -
225
Y. MIKAWA e-t al. Ekctron Collisions with Positive Ions
TABLE II. Experimental Papers See page 2 17 for Explanation of Tables
75 E6
75 E7
75 E8
75 E9
75 El0
75 El1
75 El2
1976 76 El
76 E2
76 E3
76 E5
76 E4
76 E6
1977 77 El
[beam, Th-70 eV] A.I. Imre, V.A. Kel'man, A.I. Dashchenko and I.P.,Zapesochnyi, Ukr. Fiz. Zh. 20, 1214 (1975) [Russian] Polarizatzn and effective excitation cross sections for resonant radiation from Sir+ . ions subject to electron impact
[beam, 5S-5PJ V.A. Kel'man and A.I. Irme, Opt. Spectr. 38, 709 (1975) Absolute cross section for excitation of a Ca+ ion resonance level by electron impact
[beam, 4P-4d, SS, 4S-4P Th-100 eV] V.A. Kel'man, A.I. Dashchenko, I.P. Zapesochnyi and A.I. Irme, Sov. Phys. Dokl. 20, 38 (1975) Effective cross section for Mg II resonance doublet excitation in electron-ion collisions
[beam, 3S-3P 4.4-100 eV] B. Peart and K.T. Dolder, J. Phys. B g, 56 (1975) Measurements of cross sections for inner- and outershell ionization of Rb+, Cs+, Ca+ and Sr+ ions by electron impact
[beam, Th-800 eV] W.E. Sayle, R.K. Feeney and T.F. Divine, 9th ICPEAC, p. 895 (1975) Absolute experimental cross sections for the ionization of CS+ ions by electron impact
[beam, Th-2 keV] P.O. Taylor, R.A. Phaneuf, D.H. Crandall and G.H. Dunn, 9th ICPEAC, p. 391 (1975) Electron impact excitation of positive ions: Absolute cross section
[beam, 6S-6P Th-300 eV] I.P. Zapesochnyi, V.A. Kel'man, A.I. Irme, A.I. Dashchenko and V.S. Rohulitch, 9th ICPEAC, p. 393 (1975) Excitation of the Mg+ and Sr* ions in electron-ion collisions
[beam, 3S-3P, 3P-4s; SS-SP, SP-5d Th-100 eV]-
R.U. Dalta, L.J. Nugent and H.R. Griem, Phys. Rev. As, 979 (1976) Ionization rate coefficients of multiply ionized atoms
[plasma, rate: 200 eV] T.F. Divine, R.F. Feeney, W.E. Sayle, II and J.W. Hooper, Phys. Rev. AE, 54 (1976) Absolute experimental cross section for the ionization of TK+ ' ions by electron impact
[beam, Th-2 keV] E.D. Donets and A.I. Pikin, Sov. Phys. JETP 43, 1057 (1976) Ionization of positive argon ions by electronimpact
[trapped ion, 2.5 keV, relative] E.D. Donets and A.I. Pikin, Sov. Phys. Tech. Phys. 20, 1477 (1976) Production of carbon and nitrogen nuclei and highly charged argon and xenon ions in an electron-beam ion source
[trapped ion, 2.5 keV. relative]
R.A. Phaneuf, P.O. Taylor and G.H. Dunn, Phys. Rev. A14, 2021 (1976) Absolute cross sections for emission of 284.7-nm (Hg m and 479.7-nm (Hg III) radiation in electron- mercury-ion collisions
[beam, 6S-7S (Th-300 eV) and emission of 479.7 nm (Th-90 eV)] I.P. Zapesochnyi, V.A. Kel'man, A.I. Irme, A.I. Dashchenko and F.F. Danch, Sov. Phys. JETP 3, 989 (1976) Excitation of the Mg+, Ca+, Sr+ and Ba+ resonance levels in electron- ion collisions
[beam, 3S-3P, 3P-4S for Mg II; QS-4P, 4P-4d, 5S for Ca II; 5S-5P, 5P-Sd, 6S for Sr II; 6S-6P, 6P-6d, 7s. Sd-4f for Ba II; 2-100 eV]
D.H. Crandall, P.O. Taylor and R.A. Phaneuf, 10th ICPEAC. p. 1086 (1977) Electron impact ionization of C N and N V
[beam, Th-500 eV]
Sr II Exe -
Ca II Exe -
Mg II Exe -
Ca II, Rb II, Sr II, Cs Il Ion -
Cs II Ion -
Hg lI Exe -
Mg II, Sr II Exe -
BlV,CV Ion -
Tf. II Ion -
Arg+ (g = 4-12) Ion -
Ng+ (g = 3,5), Arg* (g= 5,8,10,
121, Xeg+ (qq;lo,l5,20,
Ion - Hg II Exe/Ion --
Mg II, Ca II, Sr II, Ba II Exe -
C W, N V Ion -
226 Atanic Data and Nudem Data TtttM~. Vol. 31, NO. 2. 3ePtmbU 1884
Y.ITIKAWA etal. Electron Collisionswith Positive Ions
TABLE II. Experimental Papers See pegc 2 17 for Explanation of Tables
77 E2 E.D. Donets and V.P. Ovsyannikov, 10th ICPEAC, p. 1088 (1977) Ionization of nitrogen, oxygen, neon and argon positive ions by Ng+, Og+, Neg+, electron impact Arg+, Ion
[trapped ion, relative] -
77 E3 J.B. Hasted, M. Hamdan and K. Birkinshaw, 10th ICPEAC, p. 1082 (1977) c n,lII, 0 II,m Ionization of positive ions by electrons in the concentric beam Ion - equipment
[trapped ion, 40-500 eV, relative] 77 E4 L.A. Jones, E. Kaellne and D.B. Thomson, J. Phys. B lo, 187 (1977)
Measurement of the total collisional ionization rates of Ne VI, VII and VIII
[plasma, rate: 120-400 eV] 77 ES E. Kaellne and L.A. Jones, J. Phys. B 10, 3637 (1977)
Measurements of the ionization rates oflithium-like ions [plasma, rate]
77 E8 W.E. Sayle, II and R.K. Feeney, 10th ICPEAC. p. 1084 (1977) Absolute cross sections for electron impact double ionization of Na+ ions
[beam, 1++3+ Th-lOOOeV] 77 E6 P.O. Taylor, R.A. Phaneuf, D. Gregory, G.H. Dunn and D.H. Crandall,
10th ICPEAC, p. 1100 (1977) Absolute cross sections for electron impact excitation of C3+
[beam, ZS-2P Th-JOOeV] 77 E7 P.O. Taylor, D. Gregory, G.H. Dunn, R.A. Phaneuf and D.H. Crandall,
Phys. Rev. Lett. 39, 1256 (1977) Absolute cross sections for 2S-2P excitation of C3+ by electron impact
[beam, 2S-2P 8-530 eV]
1978 78 El D.H. Crandall, R.A. Phaneuf and P.O. Taylor, Phys. Rev. Ale, 1911
(1978)
Ne VI,W,MI Ion -
N V, 0 VI Ion -
Na II Ion
C lb' Exe -
C N Exe -
. . ClV.NV Ion -
Electron-impact ionization of C3+ and N [beam, C 3+ 58-481eV, N4+: 103-529 :I, rate: 2 x10'-2 x108K]
78 E2 R.K. Feeney, W.E. Sayle and T.F. Divine, Phys. Rev. AE, 82 (1978) Rb II Ion Absolute experimental cross sections for the electron-impact ioniza- -
tion of Rb+ ions [beam. 27-2000eVJ
78 E3 M. Hamdan, K. Birkinshaw and J.B. Hasted, J. Phys. Bc, 331 (1978) [trapped-ion, 40-500 eV]
c Il,III, 0 lI,m, Ar II,DI,lV Ne II, II Ion -
78 E4 W.T. Rogers, J.O. Olsen and G.H. Dunn, Phys. Rev. Al8 1353 (1978) Li II Exe Absolute emission cross section for electron-impactexcitation of -
Li+ to the (23P) level [beam, 11S-23P, 53-162 eV, rate: 104-107K]
78 ES P.R. Woodruff, M.-C. Hublet and M.F.A. Harrison, J. Phys. Bg, L305 (1978)
A measurement of the cross section for electron impact ionization + of Ar [beam, Th-lOOOeV]
Ar II Ion -
78 E6 P.R. Woodruff, M.-C. Hublet. M.F.A. Harrison and E. Brook, J. Phys. CID Ion B& L679 (1978) - A measurement of the cross section for electron impact ionization of C2+
[beam, Th-lOOOeV]
1979 79 El D.H. Crandall, R.A. Phaneuf, B.E. Hasselquist and D.C. Gregory, 3.
Phys. Bl& L249 (1979) C IV, N V, 0 M Ion
Measured cross sections for ionization of C3+, N4+ and OS+ ions with -
contribution due to excitation-autoionization [beam, Th-1500eV]
79 E2 D.H. Crandall, R.A. Phaneuf and D.C. Gregory, ORNL/TM-7020, Oak Ridge National Laboratory (1979)
B N, C IV,V, N
Electron impact ionization of multicharged ions N,V,MI. 0 N*V,U, Ar V Ion
[beam. Th-1500eV] -
227 Atomic OS,., and Nudeor Oat0 T,idW. Vol. 31, No. 2. S.fM”W 1334
Y. ITIKAWA et al. Electron Collisions with Positive Ions
TABLE II. Experimental Papers See page 2 I7 for Explanation of Tables
79 E3 D.C. Gregory, G.H. Dunn, R.A. Phaneuf and D.H. Crandall, Phys. Rev. A=, 410 (1979) Absolute cross sections for ZS-2P excitation of N+ by electron impact
[beam, 2S-ZP, 4-52 eV]
N V Exe -
79 E4 W.L. Rowan and J.R. Roberts, Phys. Rev. AE, 90 (1979) N V, 0 VI Ion Electron-impact ionization-rate coefficients for lithium-like ni-
- trogen and oxygen
[plasma, rate: 80 eVJ 79 ES A.I. Zapesochnyii, I.S. Aleksakhin, I.P. Zapesochnyii and A.I. Imre, K II Exe
Sov. Phys. JETP Lett. E, 207 (1979) -
Resonances in the cross section of excitation of a potassium ion by electron collision
[beam, 3P6'S-(4S,4St,3d), Th-250 eV, relative]
1980 80 El A. Miiller and R. Frodl, Phys. Rev. Lett. 44, 29 (1980) Ar II,IU,lV Ion
i+ ions (i=1,2,3) -
L-shell contributions to multiple ionization of Ar by electron impact
[beam, Ar II: 1+3,4,5+, Ar Dl: 2+4.5+, Ar lV: 3+5+, Th-800 eV] 80 E2 A. Miiller, E. Salzborn, R. Frodl, R. Becker, H. Klein and H. Winter, OlI, Ne II, Xe II,
J. Phys. Bz, 1877 (1980) Ar II-VI Ion - Absolute ionization cross sections for electrons incident on O+, Ne+,
Xe+, and Ari+ (i=l,...,S) ions [beam, OJI: 83-357 eV, Ne II: 47-830 eV, Xe II: 21-830 eV. Ar II: 25-664 eV, Ar DI: 37-747 eV, Ar IV: 56-705 eV, Ar V: 75-830 eV. Ar VI: 124-830 eV]
80 E3 P.O. Taylor, R.A. Phaneuf and G.H. Dunn, Phys. Rev. AZ, 435 (1980) Be II Exe Absolute cross sections and polarization for electron-impact excita-
-
tion of the resonance multiplet of the Be+ ion [beam, 2S-2P, 15-740 eV]
80 E4 A.I. Zapesochnyi, A.I. Imre and I.S. Aleksakhin, Sov. Phys. JETP RbII,CslI Ion Lett. 31, 38 (1980) Spectroscopic investigation of the production of doubly charged rubi- dium and cesium ions by electron-ion collisions
[beam, ionization of s-electons, Th-300 eV]
1981 81 El P. Defiance, F. Brouillard, W. Clayes and G. van Wassenhove, J. Phys. He II Ion
Ba, 103 (1981)
81
Cross beam measurement of absolute cross sections: an alternative method and its application to the electron impact ionization of He+
[beam, 55-74 eV] E2 E. Donets and V.P. Ovsyannikov, Sov. Phys. JETP 53, 466 (1981)
Investigation of ionization of positive ions by electron impact Cq+ q=l-5, Nq+ q [trapped-ion, 2-10 keV] =l-6, Oq+q=l-7,
Neq+ q=l-9. Arq+ q=4-17 Ion -
81 E3 R.A. Falk, G.H. Dunn, D.C. Griffin, C. Bottcher, D.C. Gregory, Ti III, Zr HI, Hf D.H. Crandall and M.S. Pindzola, Phys. Rev. Lett. 47, 494 (1981) III Ion Excitation-autoionization contributions to electronimpact ioniza-
-
tion [beam, Th-64 eV]
81 E4 P. Greve, M. Kato, H.-J. Kunze and F.S. Hornady, Phys. Rev. A2Q, 429 (1981) Experimental ionization-rate coefficients for hydrogen-like, helium- like, and lithium-like ions
[plasma, rates for B Iv: 140, 175 eV, B V: 230 eV, C V: 160, 210 eV. C VI: 230 eV, N V: 110, 120 eV. N VI: 235 eV, 0 VI:
B lV,V, C V,vI, N V,vI, 0 W, F VU, Ne WI Ion -
135, 160 eV, F VII: 160, 180 eV; Ne VIII: 160, 220 eV] 81 ES D.W. Hughes and R.K. Feeney, Phys. Rev. A23, 2241 (1981) Rb II Ion
Absolute experimental cross sections for iFie electron-impact multi- -
ple ionization of singly charged rubidium ions [beam, l-+3+: 50-3000eV, 1+4+: lOO-3OOOeV, l+S+: 160-3OOOeV]
1982 82 ES A. Chutjian and W.R. Newell, Phys. Rev. Ax, 2271 (1982) Zn II Ion
Experimental electron energy-loss spectra and cross sections for the -
228
Y. ITIKAWA et al. Electron Collisions with Positive Ions
TABLE II. Experimental Papers See page 217 for Explanation of Tables
42S+42P transition in Zn II [beam, 4S-4P, DCS at 14", 30-100 eV]
a2 El D.H. Crandall, R.A. Phaneuf, R.A. Falk, D.S. Belie and G.H. Dunn, Mg II, Aa DI, Si Phys. Rev. AE, 143 (1982) lV Ion Absolute cross-section measurements for electron-impact ionization
-
of Na-like ions-Mg+, A& 2+ and Si3+ [beam, Mg II: 15-406 ;V, Aa III: 29-994 eV, Si IV: 54-1492 eV, rate: lo'-107K]
a2 ~6 D.R. Hertling, R.K. Feeney, D.W. Hughes and W.E. Sayle II, J. Appl. cs II Ion Phys. 53, 5427 (1982) Absolute experimetal cross sections for the electron impact single, double, triple, and quadruple ionization of Cs+ ions
[beam, l+n+ (n=2,3,4,5) Th-5 keV] a2 E7 G. Kolbe, Y.W. Huang and D.D. Burgess, J. Phys. BG, 4283 (1982) He II Exe -
A laser-based measurement of electron collision rates for excited states of ionized helium in a plasma
[plasma, deexcitation of n= 4, T= 4.3 eV] a2 E2 W.T. Rogers, G.H. Dunn, J.O. Olsen, M. Reading and G. Stefani, Phys. Zn II Exe -
Rev. Ag, 681 (1982) Absolute emission cross sections for electron-impact excitation of Zn+ (4p'P) and (5s2S) terms. I.
[beam, 4s2S-4p2P,5s2S,6.3-792 eV] a2 E3 W.T. Rogers, G. Stefani, R. Camilloni, G.H. Dunn, A.Z. Msezane and Zn II, Ga II
R.J.W. Henry, Phys. Rev. Ag, 737 (1982) Electron-impact ionization of Zn+ and Ga+
[beam, Th-2 keV] a2 E4 G. Stefani, R. Camilloni, G.H. Dunn and W.T. Rogers, Phys. Rev. AC, Ga II Exe
2996 (1982) -
Absolute emission cross section for electron-impact excitation of Ga+ to the 4'P level
[beam, 4'S-4lP, Th-400 eV]
Ion -
1983
a3 El R. Brown, W.M. Deuchars, D.E. Kidd, H.P. Summers and L. Wood, J. N lV,V Ion Phys. BE, 2053 (1983) Measurement of ionization rate coefficients of nitrogen ions
[plasma, rate at 32-75 eV] a3 E2 A. Chutjian, A.Z. Msezane and R.J.W. Henry, Phys. Rev. Lett. 50, Zn II Exe
1357 (1983) -
Angular distribution for excitation of the 42S +42P transition in Zn II: Comparison of experiment and theory
[beam, 4S-4P, DCS at 4'-16' for 75 eV, 14O for 30-100 eV] a3 E3 R.A. Falk and G.H. Dunn, Phys. Rev. Ax, 754 (1983) Be II Ion
Electron-impact ionization of Be+ [beam, Th-1600 eV]
a3 E4 R.A. Falk, G.H. Dunn, D.C. Gregory and D.H. Crandall, Phys. Rev. Ti lV, Zr EJ, AZ, 762 (1983) Hf lV, Ta IV Ion Measurement of the contribution of excitation-autoionization to
-
electron-impact ionization of ions: Ti +3, Zr'3, Hf+3, and Ta +3 [beam, 33-988 eV]
a3 E5 R.A. Falk, G. Stefani, R. Camilloni, G.H. Dunn, R.A. Phaneuf, B II,C IU,N w, D.C. Gregory, D.H. Crandall, Phys. Rev. A28, 91 (1983) OV Ion
[beam, 20-500 eV for B II, 40-500 eVTor C ID, 70-1500 eV for -
N m, 100-1500 eV for 0 V] a3 ~6 D.C. Gregory, P.F. Dittner and D.H. Crandall, Phys. Rev. AC, 724 Ne N, Ar lV,
(1983) Kr lV, Xe lV Ion Absolute-cross-section measurements for electron-impact ionization -
of triply charged inert-gas ions: Ne 3+, Ar3+, Kr3+, and Xe3+ [beam, 34-1500 eV]
a3 E7 D.C. Gregory and D.H. Crandall, Phys. Rev. A27, 2338 (1983) Xe VII Ion Measurement of the cross section for electron-impact ionization of -
Xe6+ ions [beam, 89-1482 eV]
229 Atunk Data and Nwbar Data Tablea, Vd. 31. No. 2, Sapta&a ,284
Y. ITIKAWA et al. Electron Collisions with Positive Ions
TABLE II. Experimental Papers See page 217 for Explanation of Tables
a3 E8 K. Hane, T. Goto and S. Hattori, Phys. Rev. AZ, 124 (1983) Cd II Exe - Excitation cross sections of Cd+ ions for the upper and lower states of the Cd II 441.6-nm laser line by electron impact
[beam, emission cross sections for 5s2S-5p2P,,2 and
5p2P3,,-4d 5s 9 22D 5,2, Th-16 eV]
a3 E9 K. Hane, T. Goto and S. Hattori, J. Phys. BE, 629 (1983)
Emission cross sections of the Cd II spectral lines in e-Cd+ ion collisions
[beam, emission cross sections for various lines, 5.5-20eV]
83 El0 R.G. Montague and M.F.A. Harrison, J. Phys. BE, 3045 (1983) A measurement of the cross section for electron impact ionization
of Aa+ [beam, 19-750 eV]
83 El1 J.-S. Wang and H.R. Griem, Phys. Rev. AC, 2249 (1983) Measurements of collisional excitation rate coefficients for Fe X ions in a plasma
[plasma, 3p5-3p44s, 3p43d, rate: 45-95 eV]
Cd II Exe -
A& II Ion -
Fe X Exe -
230 Atomic Data and Nudear Data Tatdes. Vol. 31, No. 2. septrnber 1994
Y. ITIKAWA et al. Electron Collisions with Positive Ions
TABLE III. Theorehal Papers See page 2 I7 for Explanation of Tables
1940 40 Tl
1941 41 Tl
1948 48 Tl
1950 50 Tl
1951 51 Tl
1953 53 Tl
53 T2
1954 54 Tl
1955 55 Tl
55 T2
55 T3
M.H. Hebb and D.A. Menzel, Astrophys. J. 92 408 (1940) Physical processes in gaseous nebulae. X -
[CB with exchange, transitions between 3p, 'D, ISI
S. Miyamoto, Mem. Coll. Sci. Kyoto Imperial Univ. A23 467 (1941) On the excitation of 0 III-ion in 2p2
- -configuration by the electron
impact [BO, transitions between 3P, 'D, IS]
0 III Exe -
0 Itt Exe -
L.H. Aller, Publ. Astr. Sot. Pacific 60, 317 (1948) The collisional excitation of the h3727 radiation of 0 11.
0 II, Exe -
L.H. Aller, Astrophys. J. 111, 609 (1950) Target areas for the colliGna1 excitation of nebular lines
[upper limit to cross sections]
N II, 0 II, IIf Exe -
E.R. Hill, Austral. J. Sci. Res. A$, 437 (1951) Collisional processes involving highly ionized atoms
[DW, 'Psi2 '2Pl,2 and Ion (X=1.5-6)]
FeXWg,+
B.H. Bransden, A. Dalgarno and N.M. King, Proc. Phys. Sot. AE, 1097 (1953)
He II, Exe - The application of variational methods to scattering by ions II: The distorted-wave approximation and the ls-2s excitation of helium ions by electron impact
[DW, ls+Zs at 43.7, 48.7, 65.3 eV] M.J. Seaton, Proc. Roy. Sot. AZ, 400 (1953) Electron excitation of forbidden lines ocurring in gaseous nebulae
N If, 0 ICI, III F II-IV, Ne III-V
[N II, 0 II, lII, Ne EI, S II: transitions between states of 2p" Na N, V, Mg V
or 3p" 2 II Exe
configuration calculated in ER with correction at X=1; -
fine-structure transitions for 0 III; cross sections are also estimated for F II-IV, Ne III-V, Na IV, V, Mg V]
J.T. Jefferies, Austral. J. Phys. 1, 22 (1954) Some electron collision cross sections of Ca+ ̂
[DW, 4s ‘Sli2 +4p ‘P 1~2,3~2 at 0.3 Ry]
Ca II, Exe -
M.J. Seaton, Proc. Roy. Sot. A=, 37 (1955) Further calculations on electron excitation of forbidden lines: tran.. sitions with electric quadrupole moments
0 II, III, N II
[transitions between 2nd and 3rd states of the ground configura- F II-IV, Ne III-
tion for 0 II, III, S II; interpolated for other ions] V, Na IV, V Mg V, S II Exe -
M.J. Seaton, The Airglow and the Auroae, ed. by Armstrong and Exe Dalgarno, p. 289 (1955)
- The calculation of cross-sections for excitation of forbidden atomic lines by electron impact
[review of calculations and estimation of collision strengths by inter- or extraplation for transitions among the levels arising from the same electron configuration 2p" (n = 2-4) or 3p3; for further details see 55 T3 and 58 Tl]
x=1;
M.J. Seaton, Ann. d*Astrophys. g, 188 (1955) The kinetic temperature of the interstellar gas regions of neutral hydrogen
C II, Si II Fe lI Exe -
[C II: 2p 2Pl,2 +2P3,2 at X =l; DW; Si II3p 2Pl,2 +2P3,2 and
Fe II: a 6Dg,2 +a6D7i2, a 6D 5/Z; estimated]
231 Atomic Data and Nudeor Data Tables. Vol. 31, No. 2. Septmtm 1984
1957 57 Tl
1958 58 Tl
1959 59 Tl
1960 60 Tl
60 TZ
60 T3
1961 61 Tl
61 T2
61 T3
61 T4
61 T5
1962 62 Tl
62 T2
62 T3
62 T5
Y. ITIKAWA et al. Electron Collisions with Positive Ions
TABLE III. Theoretical Papers See page 2 I7 for Explanation of Tables
M.J. Seaton and D.E. Osterbrock, Astrophys. J. 125, 66 (1957) 0 II Exe Relative [O II] intensities in gaseous nebulae
-
[improved ER (exact resonance) method, transitions between 'Pl,2 3,2, *
2D 3/2,5/Z' 4s 3/Z]
M.J. Seaton, Rev. Mod. Phys. 30, 979 (1958) Thermal inelastic collision processes
[review of calculations and recommended values given for the col- lision strengths for transitions between states of 2p" (n- 2-4) or 3p3 configuration]
S.B. Schwartz and H. Zirin, Astrophys. J. 130, 384 (1959) Collisional ionization cross-section for Fe XlV in the solar corona and the coronal electron temperature
[DW, X=1-14 and rate for (0.3-2.6) treatment]
x106K single electron (H-like)
A. Burgess, Astrophys. J. 132, 503 (1960) A note of the calculation ccoronal ionization cross-sections
[CB, nuclear charge Z = 2, m; X=1-6] H. van Regemorter, Mon. Not. R. Astr. Sot. 121, 213 (1960) Electron impact exciation of positive ions: application to Ca+ 4s-4p and 3d-4p
[CB I,D, CB' 1,II at 0 and 0.1 Ry above threshold] H. van Regemorter, Ann. d'Astrophys. z, 817 (1960) MBthodes de calcul des sections d'excitation par chocs Blectroniques
[Ca II data taken from 60 TZ; Mg II 3s+3p: CB I,II, CB' 1,II at 0 and 0.1 Ry above threshold]
A. Burgess, Mem. Sot. Roy. Sci. Liige 2, 299 (1961) New results on coronal cross-sections
[CB, Z=2, 0~; X=1-6 for both Ion and Exe (ls+Zp)] F.B. Malik and E. Trefftz, Z. Naturf. -lba, 583 (1961) Ionisationsquerschnitt von 0 V gegeniib= Electronenstoss unter teil- weiser Beriicksichtigung des Austauschs
[DW with exchange partially taken account, 9, 12, 20 Ry] L.A. Vainshtein, Opt. Spectry. 11, 163 (1961) The excitation of atoms and ions by electron impact I. Calculation ignoring exchanges
[Born a DW, C V (Zs-3p), C VI (Zs-3~); X=1-7.76] H. van Regemorter, Compt. Rend. Acad. Sci. 252, 2514 (1961) Secion d'excitation par chocs BlectroniquesY% magn6sium ionise
[CB I, II, CB' I, II, 3s+3p at final energy of 0, 0.1, 0.326 Ry] H. van Regemorter, Compt. Rend. Acad. Sci. 252, 2667 (1961) L'excitation par choc de la transition 4s-3d de Ca+
[CB I, II (4s-4p coupling taken account), CB' I,II, 4s-3d at final energy of 0.1062, 0.2062 Ry]
0. Bely, Compt. Rend. Acad. Sci. 254, 3167 (1962) Calcul de quelques sections de choc dans Fe UV.
[CB , 2Po+2D,2S at X=1] 0. Bely. Compt. Rend. Acad. Sci. 254, 3075 (1962) Calcul de sections d'excitation par chocs Glectroniques dans 0 VI
[CB and CB', Z'S-2'P; 9.878-20 Ry] M. Blaha, Bull. Astr. Inst. Czech. 13, 81 (1962) Excitation of Fe m by electron collisions
[DWX, 2P1/2-2P3/21
H. van Regemorter
N lI,lII, 0 II,llI, F II-IV, Ne m-V, Na lV,V, Mg V, S II, Exe -
Fe m Ion
H-like Ion -
Ca II, Exe -
MglI,CaII Exe
H-like Exe/Ion --
OV Ion -
C V,M Exe
Mg II Exe -
Ca II Exe
Fe XIV Exe -
0 VI Exe -
Fe XElr Exe -
Exe
232 Ateink Oata cmd Nudw Oats Tables Vol. 31. NO. 2. fiWtmtN 1234
Y. ITIKAWA et al. Electron Collisions with Positive ions
TABLE III. Theoretical Papers See page 2 I7 for Explanation of Tables
62 T4
1963 63 Tl
63 T2
63 T3
63 T4
63 T5
63 T6
63 T?
63 T8
1964 64 T6
64 Tl
64 T2
64 T3
64 T4
64 T5
1965 65 Tl
Astrophys. J. 136, 906 (1962) Rate of collisional excitation in stellar atmospheres
[Gaunt factor approximations proposed] C.M. Varasvsky, Ioniz. Phenomena in Gases part 1, ed. by H. Maecker, p. 69 (1962) Excitation cross sections for highly ionized atoms
[CB, 0 ‘Jl
0. Bely, J. Tully et H. van Regemorter, Ann. de Phys. 5, 303 (1963) L'excitation des atomes par chocs electroniques. Application a l'excitation des transitions de resonance dans le series isoelectro- niques du lithium et du sodium
[CB 1,II and CB' I,lI, 25-2~ or 3s-3p; X=1-6] A. Burgess and M.R.H. Rudge, Proc. Roy. Sot. A=, 372 (1963) The ionization of hydrogenic positive ions by electron impact
[CB, CBO, CB-exchange, log X=0-1.2] M.K. Gailitis, Tr. Inst. Fiz. Akad. Nauk Latv. SSR 13 (1963) A Coulomb-Born approximation for s-s transitions -
tCB1 M.K. Gailitis, Tr. Inst. Fiz. Akad. Nauk Latv. SSR 13 (1963) The use of the Bethe approximation in calculating tl% excitation cross-section of ions by electrons
[Bethe, AE/Z2 =1/16 - 0~; X=1-3] M.K. Gailitis, Opt. Spectry. 14, 249 (1963) Calculation of the excitation of ions by electron using Coulombic wave functions
[ls-2s, 3s; X=1-3; CB compared with Born, DW, Bethe approx.] J.L. Kulander and C.B. Emmanuel, Phys. Fluids 6, 1656 (1963) Ionization of Fe X&' by electron impact
[Bethe, X=1-14 (I = 390 eV)] E. Trefftz, Proc. Roy. Sot. An, 379 (1963) The cross section for ionization of 05+ by electron impact
[0 V (a correction to the previous DW calculation and exten- sion; 0 VI, CBO; X=1-4]
C.M. Varasvsky, Planet. Scpce Sci. 2, 1001 (1963) Atomic parameters for five times ionized oxygen
[IP, 2s-2p,3p,4p; X=1-6 and Ion at X=1.5,2,4] -
A. Burgess, Proc. Symposium on Atomic Collision Processes in Plasmas (Culham Laboratory Sept. 14-16, 1964), AERE-R4818 (1964) Semi-classical theory of electron-atom collisions
[a combined "exchange-classical"-"impact-parameter" method pro- posed]
P.G. Burke, D.D. McVicar and K. Smith, Atomic Collision Processes, p. 339 (1964) The scattering of electrons by He+
[CC, ls-2s,2p; 40.8-217.6 eV] P.G. Burke, D.D. McVicar and K. Smith, Proc. Phys. Sot. 83, 397 (1964) The excitation of He+ by electrons
[CC, ls-2s,2p; 44.2-217.6 eV] P.G. Burke, D.D. McVicar and K. Smith, Proc. Phys. Sot. e, 749 (1964) Scattering of electrons by ionized helium
[CC, ls-2s (DCS) at 4.0, 3.24, 6.0 Ry and ls-3p at 3.65, 3.75, 3.85, 4.0, 5.0 Ry]
S.J. Czyzak and T.K. Krueger, Atomic Collision Processes, ed. by McDowell, p. 213 (1964) On the calculation of electron excitation cross sections for forbid- den lines occurring in gaseous nebulae
[CB, ER, DW] R. McCarroll, Proc. Phys. Sot. 83, 409 (1964) Electron scattering by the heli%ii positive ion in the Is, 2s, or 2p state
[CC, ls-2s,2p at k= 2.0, 2.2, 2.4, 2.6 a.u.]
P.G. Burke and A.J. Taylor, Proc. Roy. Sot. Ax, 105 (1965)
0 M, Exe -
Be II, C N, 0 VI, Mg lI,X, Si Xr, Fe %I Exe -
He II, Ion -
H-like Z= 2,3,4,~ Exe -
Exe -
H-like Z= 2,3,4,= Exe
Fe Xh', Ion -
0 V,M Ion -
0 VI Exe and Ion - -
Ion -
He II Exe -
He II Exe
He II Exe -
S III, CP. lV, Ar V, S II Exe -
He II Exe -
He II Ion -
233 ~,omk oata and ?wciew Oam Tat&a. Vol. 31, NO. 2. Sept- 1884
Y. ITIKAWA et al. Electron Collisions with Positive Ions
TABLE III. Themetical Papers See page! 2 17 for Explanation of Tables
The ionization of H and He+ by electron impact He II Ion [Ion from Is or 2s; X=1-4,; ls-2s-2p CC for initial state and
-
Coulomb functions for outgoing electrons, also Born and BO]
65 T2 L. Goldberg, A.K. Dupree and J.W. Allen, Ann. d’Astrophys. g, 589 0 IV-VI, Fe W,EY (1965) Ion Collisional excitation of autoionizin
-
[Bethe, Exc(AI)/Ion ratio, T-10 $ levels
- - - 2 x107K]
65 T3 T.K. Krueger and S.J. Czyzak, Mem. Roy. Astr. Sot. 69, 145 (1965) Fe X,!I Exe Atomic wave functions, collision cross-sections, and-transition prob-
-
abilities of Fe ions [CB, I,II, 3s-3p, 3p-3d; X=1, 1.5, 2, 41
65 T4 D. Petrini, Compt. Rend. Acad. Sci. 260, 4929 (1965) Physique theorique atomique -Excitation par chocs Blectroniques des
CalI,BaII Exe -
transitions 4s+4p, 4s+3d, 3d+4p du Ca II et 6s+6p, 6s+5d, 5d+ 6p du Ba II
[CB I, II, CB’ I, II, at three values of X (between l- 12)]
65 T5 M.R.H. Rudge and S.B. Schwartz, Proc. Phys. Sot. 86, 773 (1965) He II Ion - The ionization of He+ by electron impact
[CBE, (method of 63T2), X = l-51
1966
66 Tl
66 T15
66 T2
66 T3
66 T4
66 T5
66 T6
66 T7
66 T8
0. Bely, Ann. d’Astrophys. 29, 131 (1966) Calcul des sections de chocaans les ions de la serie isoelectronique du lithium. I. Transitions dipolaires du type 2s+np
[CB I,n, Zs-np (n=2-7); X=1-7]
0. Bely, Ann. d’Astrophys. 2, 683 (1966) Excitation of lithium-like ions by electron impacts. II. Transitions Zs-ns and Zs-nd
[CB, Zs-ns,nd (n = 3-7); X = 1,3,5]
0. Bely, Proc. Phys. Sot. 87, 1010 (1966) An evaluation of the exchange contribution in the scattering of elec- trons by positive ions
[3P-1D; X=1; Ochkur-Rudge approximation and its modifications, compared with ER]
0. Bely, JILA Report No. 89 (1966) Electron collisions with positive ions
[comparison of various approximations (CC, IP, CB I,lI, CB’ I,lI, Coulomb-exchange, etc.)]
0. Bely, JILA Report No. 66 (1966); Nuovo Cimento 49, 66 (1967) On the exchange contribution in the scattering of xectrons by atoms and positive ions
[Ochkur-Rudge approximation]
0. Bely, Proc. Phys. Sot. E, 587 (1966) Excitation of lithium-like ions by electron impacts
[y;,= 2;;np (n = 2-7); X = l-10 ; also 2s-2p,7p for H-like ion m
0. Bely and D. Petrini, Phys. Lett. 23, 442 (1966) The excitation cross section Q (4s+m) in Ca II
[CB, R-matrix below and above the 4p threshold]
F. Bely, 0. Bely and Vo Ky Lan, Ann. d’Astrophys. 29, 343 (1966) The excitation of the ground configuration of Fe mby electron impact
[CB, transitions between 3Po 1 2,1D2,1So at 0.01, 5, 10 Ry]
P.G. Burke, J.H. Tait and B.A. Le;il, Proc. Phys. Sot. 87, 209 (1966) Excitation of N V by electron impact
[CB, transitions between Zs, 2p, 3s. 3p, 3d; threshold to 435 eV]
Be II, N V, Ne VIII Exe -
Be D., N V, Ne MI ;;i-like with Z=m -
N II, 0 DI, S III, C!L lV, Ar V Exe -
H-, Li-, B-, C-, Na-, AL-, Si-, K- like Exe -
N II, 0 IU, F lt’, Na VI, P lI,X, S III, Ck lV, Ar V, XII, KXlV, CaW, W, v x, Cr XI, Mn XI, FeXDI, NiW Exe - Be II, N V, Ne WI Exe
Ca II Exe -
Fe Xm Exe -
N V Exe
66 T9 S.J. Czyzak and T.K. Krueger, Astrophys. J. 144, 381 (1966) Fe VIG Exe - On the excited levels of Fe VIU
[CB, transitions between 3s. 3d, 4s, 4p, 4d, 4f, Ss, Sf, 6s ,7f
3p53d2 ; X=1-4]
66 TlO I.C. Percival, Nucl. Fusion 5, 182 (1966) H-like Exe Cross sections for collisions of electrons with hydrogen atoms and
-
hydrogen-like ions [ls-n; empirical]
66 Tll M.R.H. Rudge and S.B. Schwartz, Proc. Phys. Sot. 88, 563 (1966) The ionization of hydrogen and of hydrogenic posiirive ions by elec-
He II and H-like with 2=128 Ion -
234 Atomic Data and Nuclear Date TabIes. Vd. 31. No. 2.3WtOdU 1984
66 T12
66 T13
66 T14
1967
67 Tl
67 T2
67 T3
67 T4
67 T5
67 T6
67 T7
67 T8
67 T9
67 TlO
Y. ITKAWA et al. Electron Collisions with Positive Ions
tron impact
TABLE III. Theme&al Papers See page 2 I7 for Explanation of Tables
[CB, from Is, X=1.125-5; from 2s. X=1.25-6]
M.R.H. Rudge and S.B. Schwartz, Proc. Phys. SOC. 9, 579 (1966) The ionization of complex ions by electron impact : I. - Ionization cross section for Fe W and Fe &I
[CB, X= 1.25-5.01
H.E. Saraph, M.J. Seaton and J. Shemming, Proc. Phys. Sot. 89, 27 (1966)
Electron collisions with ions in 2p2 configurations
[ER, DW, transitions between 3P,1D,1S]
D.P. Sural and N.C. Sil, Proc. Phys. Sot. 2, 201 (1966) Excitation of helium-like ions by electron impact
[CB, 1% - 2%; X=1]
I.L. Beigman and L.A. Vainshtein, Sov. Phys. JETP 25, 119 (1967) Effective cross sections for the exchange excitation of atoms and ions by electron impact
[Li II, c v: 1s2 1s - ls2s3S; c m 2s2 % - zs2\3p; x= l-47; a first-order theory with the use of the ort ogonalized wave function]
I.L. Beigman, L.A. Vainshtein, A.V. Vinogradov, 5th ICPEAC p. 438 (1967) Double excitation of atoms by electron impact
[2s2 - zp2; X= l-25; IP, lst, 2nd perturbation theory and CC compared]
0. Bely, Nuovo Cimento 49, 66 (1967) Exchange contribution iTthe scattering of electrons by atoms and positive ions
[see 66T4]
0. Bely, Nuovo Cimento 49, 87 (1967) Potentials occurring in the excitation of highly ionized ions by electron impacts
[CB, 3Po - 3P2, 3P2 - ‘D2; 5 RYI
0. Bely and F. Bely, Sol. Phys. 2, 285 (1967) The excitation of Fe &II by electron impacts
[CB, 2s22p6+2s22p53s, 2s22p53P, 2s22p53d, 2s2p63s, 2s2p63p,
2s3p63d; X=1]
S.J. Czyzak and T.K. Krueger, Proc. Phys. Sot. 90, 623 (1967)
Electron collisions with ions of the 3p3 configuration
[transitions between 4S,2D,2P; at 0.005 Ry above improved DW; HF functions used]
2P threshold;
S.J. Czyzak, T.K. Krueger, H.E. Saraph and J. Shemming, Proc. Phys. Sot. 92-, 1146 (1967)
Excitation of forbidden lines: Calculations for the 2p3, 2p4, 3p2
and 3p4 isoelectronic sequences
[transitions between 3P,1D,1S or between 4S,2D,2P; 0 or 0.005
Ry above ‘S or 2P threshold, resp. ER, DW; HF functions used]
H.L. Kyle and K. Omidvar, 5th ICPEAC p. 444 (1967)
Excitation and ionization of He+ (1s) by electron impact [BEA, ls-2s for$lOOOeV; Ion from Is for ES 800 eV]
w. Lotz, Z. Physik 206, 205 (1961) An empirical formulaor the electron-impact ionization cross- section
[an empirical formula with 3 adjustable parameters proposed for cross section]
W. Lotz, Astrophys. J. Suppl. 14, 207 (1967) Electron-impact ionization cross-section and ionization rate coeffi cients for atoms and ions
[inter- or extrapolation of experimental data; up to lo3 or
lo4 eV]
FeW,NI Ion -
N II, 0 III, Ne V, Mg M, S XI, Zn XU Exe - Li II Exe -
LiII,CDl,V Exe -
0 V Exe -
C-, Si-like Exe -
Fe XUI Exe -
Fe &II Exe -
S II, CI1 Et, Ca VI, S II, CI1 Et, Ca VI, Ar lV, K V, V M, Ar lV, K V, V M, Fe XII Exe Fe XII Exe - -
0 II, F II,DI, Ne 0 II, F II,DI, Ne lIt,lV, Na Iv,V, Mg lIt,lV, Na Iv,V, Mg V,M, P II, s IlI, V,M, P II, s IlI, Ck II.&‘, Ar III, Ck II.&‘, Ar III, V,x,W, K wI,m, V,x,W, K wI,m, Ca V,M, V VDI,X, Ca V,M, V VDI,X, Cr M,Xl:, Mn X.XU. Cr M,Xl:, Mn X.XU. Fe XI. XllI, Ni XIII, Fe XI. XllI, Ni XIII, W,ALW Exe W,ALW Exe - - He II Exe/Ion He II Exe/Ion -- --
He 1I, Li II, N LT, Ne II, Na II, K II Ion -
He II, Li II,IU, Be lI,III. B lI,DI, C lI,IU, N II,EI, 0 lI,IlI, F II,DI, Ne II,DI, Na lI,III, KII Ion -
235 Atomic Data and Nudaw Data TaMe(l. Vol. 31. NO. 2. !%PtOtMa 1984
Y. ITIKAWA et al. Electron Collisions with Positive Ions
TABLE III. Theoretical Papers See page 2 17 for Explanation of Tables
67 Tll
67 T12
67 T13
67 T14
1968
68 Tl
68 T8
68 T2
68 T3
68 T4
68 TS
68 T6
68 T7
1969
69 Tl
S. Ormonde, W. Whitaker and L. (1967) Close-coupling calculations of
state and autoionization below [CC, 42-52 eV]
D. Petrini, Compt. Rend. Acad. Sections de choc de Fe XN
7 ‘) 7 7 7
Lipsky, Phys. Rev. Letters 19, 1161
electron-impact excitation of the 2s
the n=3 level in He+
Sci. Paris ZB, 411 (1967)
[*P~-,-SJ,,-PJ,rcDJ,,-D’J,; X = 0; CB I; LS and intermediate
coupling]
S. Sato, K. Kobayashi and H. Takebe, Publ. Astron. Sot. Japan 19, 290 (1967) Collisional ionization cross-sections for Fe ions and the temperature of the solar corona
[CBX with Zeff for Fe XN, X=1-16; approximate estimation for other ions, see also 68T7]
W. van Rensbergen, Bull. Astr. Inst. Netherlands 19, 6 (1967) Collisional excitation of autoionizing levels in 5ie term system of Si M at coronal temperatures
[Bethe, ratio of autoionization of doubly-excited levels to col- lisional ionization; logT= 5.7-81
0. Bely, J. Phys. BL, 23 (1968) The structure of the ionization curves of the sodium like ions
[CB, excitation of an inner (n= 2) electron followed by auto- ionization; logX7 O-l.81
0. Bely, Phys. Lett. 26A 408 (1968) Theoretical excitatiofi-rates in 0 W
[CBX, only line ratio (Z’P-11S)/(Z3P-1’S) given]
0. Bely and M. Blaha, Sol. Phys. 3, 563 (1968) Emission of Fe win coronal condtTons
[‘S+‘P,‘D at X=1 2 3. , s * ‘P+’ D at X=1,2; CB also 1So+3Po 1 2
’ ’ at X=1; Coulomb-exchange +nonexchange contribution]
M. Blaha, Ann. d’Astrophys. 31, 311 (1968)
Collision excitation of positive ions in pq configuration: Transi- tions between levels of the p term. Part I
[CB, DW,2Pl,2 -2P3,2 or 3Po - 3P2; X=1]
P.G. Burke and D.L. Moores, J. Phys. B1, 575 (1968)
Scattering of electrons by Mg+ and Ca+ ions [CC, Mg II: 3s+3p,3d, E$.? Ry
Ca II: 4s+4p,4d, Ezl Ry]
R.J.W. Henry and R.W. Williams, Publ. Astron. Sot. Pacific 80. 669 (1968) Collision strengths and photoionization cross sections for nitrogen, oxygen, and neon
[CC, Ne llI,V: transitions between 3P,1D,1S
Ne N: transitions between 4S,2D,2P
at threshold energy for ‘5 or ‘P, resp.]
B.L. Moiseiwitsch and S.J. Smith, Rev. Mod. Phys. 40, 238 (1968) Electron impact excitation of atoms
[CB, CC, unitarized CB, H-like ion (He II, Z=m): ls-2s,2p Li-like ion (Be Ii, C lV, N V, 0 VI, Mg X) : 2s-2p,3p; Na-like ion (Mg II, Si N. Fe %I): 3s-3p,3d]
S. Sate, K. Takahashi and H. Takebe, Publ. Astron. Sot. Japan g, 149 (1968) Collisional ionization cross-sections for Fe ions and the temperature of the solar corona. II
[re-estimation of cross section and rate coeff. cf. 67T133
0. Bely and S.B. Schwartz, Astron. Astrophys. 1, 281 (1969) Ionization of highly charged positive ions
[CB, X=1.25-4; rate coefficient for Te= (l- 4) x106K; approxi-
He II Exe -
Fe XN Exe -
Fe Ix-m Ion -
Si IX Ion -
Mg II, A9, III P V, Ca X, Fe m Ion
0 W Exe -
Fe R Exe -
many ions with
2s, 2p2, 2p4, 2p5
3s, 3p2, 3p4, 3ps 2s2p, 3s3p con- figurations Exe - MgIt,CaII Exe -
Ne llI,lV,V Exe -
H-, Li-, Na-like Exe --
Fe IX-&T Ion -
Fe XW Ion -
236
Y. ITIKAWA et al. Electron Collisions with Positive Ions
TABLE III. Theoretical Papers See page 2 17 for Explanation of Tables
mate sum rule and selection rule discussed] 69 T2 M. Blaha, Astron. Astrophys. 1, 42 (1969)
Collision excitation of positive ions in pq configurations: Transi- tions between levels of the p term. Part II
[CBX, fine-structure transitions; X=1]
69 T3
69 T4
69 T5
69 T6
69 T17
69 T7
69 T8
69 TlO
69 Tll
M. Blaha, Astrophys. J. 157, 473 (1969) Effective Gaunt factors g for excitation of positive ions by electron collisions in a gfrfiplified Coulomb-Born approximation
[collision strengths for 2s-2p of Be II, C Iv, N V, 0 VI; 3s-3p of Si lV, Fe %I; 4s-4p of Ca II, Fe MI; 3p-3d of Fe MI; 3d-4p of Ca It; X=1; CB I,lI, simplified CB 1,II also, effective Gaunt factor given for many s-p or p-d type single-electron excitations for some Z/k values between 2 and 161
C II, N lI,El, 0 II-IV, F II-V, Ne II-M, Na ID-VI, Mg lV-U, All V,vI, Si II,VI,M,X, P II, m, s II-w,x,m, cp. II-V, Ar B-VI,X-XIV, X m-VII, Ca IV-M,. W-W, SC V-M, Tr M,X,XIV,XV, Fe X-XIV, Ni W-w, Zn XlV,B Exe Li-, Be-, B-, C-, N-, 0-, F-, Na-, b-9 All-, Si-, P-, S-, Ce-like Exe -
P.G. Burke and A.J. Taylor, J. Phys. BL, 44 (1969) The excitation of He+ by electron impact
[CC, Is-Zs,2p; 3-4 Ry]
He II Exe
D.G. Economides and M.R.C. McDowell, J. Phys. B2-, 1323 (1969) Born cross sections for the ionization of He and Li+ by electron impact
[Born, 83 eV- 9 keV]
Li II Ion
W. Eissner, H. Nussbaumer, H.E. Saraph and M.J. Seaton, J. Phys. Bg, 341 (1969) Resonances in cross sections for excitation of forbidden lines in 0*+
[variational principle used to calculate R matrix near reso- nances for transitions between 3P,1D,1S]
W. Eissner, P. de A.P. Martins, H. Nussbaumer, H.E. Saraph and M.J. Seaton Mon. Not. R. Astr. Sot. 146 63 (1969) Resonances in collision strengths for excitation of [OKI] and [OIII]
[rates calculated from 69T6 and 69TlO] R.J.W. Henry, P.G. Burke and A.-L. Sinfailam, Phys. Rev. 178, 218 (1969) Scattering of electrons by C, N, 0, N+, O+ and O++
[CC, transitions between 3P,1D,1S for N II, 0 III; transitions between 4S,2D,2P for 0 II; 0 -10 eV]
w. Lotz, Z. Physik E, 466 (1969) Electron-impact ionization cross-sections and ionization rate coeffi- cients for atoms and ions from scandium to zinc
[empirical formula given]
P. de A.P. Martins and M.J. Seaton, J. Phys. Bz, 333 (1969) Quantum defect theory WI. Resonances in the collision strengths for O+ 2p3 'D3,2 - 2D5,2
[R matrix from 69115 extrapolated to obtain resonances below 2P threshold]
P. de A.P. Martins, (1969)
H.E. Saraph and M.J. Seaton, J. Phys. B& 427
Electron impact transitions between fine structure levels in ions with configurations ls22s22p3
[transitions between 4S3,2,2D3/2,2D5,2,2Pl,2,2P3,2; R matrix from 69 T15 extrapolated to obtain cross section at lower energies]
0 IIt Exe
0 lI,ID Exe -
0 II,DI, N II Exe -
Ca II, SC II,lJI, Ti II-W, V II-B', Cr II-W, Mn II-IV, Fe II-B', Co II-w, Ni II-lV, Cu II-lV, Zn II-W, Ga II-W Ion - 0 II Exe -
0 II, F m, Ne IV, Na V Exe
237
Y. ITIKAWA et al. Electron Collisions with Positive Ions
TABLE III. Theoretical Papers See page 217 for Explanation of Tables
69 T9 K.C. Mathur, A.N. Tripathi and S.K. Joshi, Phys. Rev. 184, 242 (1969) Electron-impact ionization cross section of ions
[classical impulse approximation up to 550 eV]
69 Tl2
69 T13
69 T14
69 T15
69 T18
69 T16
1970
70 Tl
70 TZ
D.L. Moores and H. Nussbaumer, 6th ICPEAC p, 17 (1969) The ionization of positive ions by electron impact
[CB, Li II: threshold to 3000eV; Mg II: threshold to 150 eV]
D. Petrini, Astron. Astrophys. 1, 139 (1969) The excitation cross-sections iii Fe XN
[transitions between 2PO,2D,2is,2 2 P, S; CC compared with CB]
D.H. Sampson, Astrophys. J. 155, 575 (1969) Comparison of some recently proposed excitation and ionization rates
[comparison of some emipirical formulae]
H.E. Saraph, M.J. Seaton and J. Shemming, Phil. Trans. Roy. Sot. 264, 77 (1969) Excitation of forbidden lines in gaseous nebulae. I. Formulation and
calculations for 2pq ions
[ER, DW, transitions between 3P,1D,1S or between 4S,2D,2P or be- tween fine-structure levels]
K. Smith, M.J. Conneely and L.A. Morgan, Phys. Rev. 177, 196 (1969) Trial wave functions in the close-coupling approximatzon
[CC, transitions among 2s2sp2 3P,1D,1S, 0.1-1.0 Ry] B.K. Thomas and J.D. Garcia, Phys. Rev. 179, 94 (1969) Ionization of positive ions
[classical BEA modified to take account of the Coulomb attrac- tion by the ion; below lOOOeV]
0. Bely and D. Petrini, Astron. Astrophys. 6, 318 (1970) Excitation of lithium-like ions by electron-impacts. IU. Transitions 2p +ns, Zp+np and Zp+nd
[CB, X=1, 1.5, 21
A. Burgess, D.G. Hummer and J.A. Tully, Phil. Trans. Roy. Sot. A=, 225 (19701 Electron impact excitation of positive ion
[CB I,lI, CBO I,D, H-like ions: transitions between Is, 2s.
‘pi/Z* 2p3/2; 0.75 - 4 Ry in the ground-state channel; He-like
ion: llS-Z3P,Z3S and transitions between Z3P,Z1P,Z3S,Z1S; O-4 Ry]
70 T3 M.J. Conneely, K. Smith and L. Lipsky, J. Phys. BJ, 493 (1970) Continuum process involving atomic systems with configurations
1s2 .,.3pq
[CC, P II, CL IJ: transitions between 3P,1D,lS; for other ions:
transitions between 4S,2D,2P]
70 T4 S.J. Czyzak, T.K. Krueger, P. de A.P. Martins, H.E. Saraph and M.J. Seaton, Mon. Not. R. Astr. Sot. 148, 361 (1970)
Collisional strengths for transitions in ions with configurations 3p3
[CC, transitions between 4S3,2,2D3,2 5,2,2Pl,2 3,2] f ,
70 T5 J. Davis and S. Morin, Can. J. Phys. 48, 275 (1970) Excitation of singly ionized barium ions by electron impact
[Burgess’ semiclassical method 62Sl,2 - 6’Pl,, 3/2; 3 - 100 eV] ,
70 T6 J. Davis and S. Morin, J. Quant. Spectrosc. Radiat. Transfer lo, 357 (1970)
[Burgess ’ semiclassical theory, ns-np, np-nd (n= S-7), 7d-7f; collision strengths, also inelastic Stark widths for several UV lines, rate 15000, 20000, 30000K]
70 T7 J. Davis and S. Morin, J. Chem. Phys. 52, 4410 (1970) Electron excitation cross sections for some N V multiplets
[IP, excitation of multiplets: A3161 (5p-6s), X4335 (6s-7p), h5273 (6p-7s), A4751 (6p-7d); 4-100 eV]
70 Ta J. Davis and S. Morin, Astrophys. J. 159, 1125 (1970) De-excitation of singly ionized bariumions by electrons
2 2 2 [IP, 52Ds/2 - 6 P3/2, 5 D3/2 -6 Pl/2,3,2; 0.5-30 eV1
Li II, Na It, K II, F II; ;b ;sn’fg
10; ’ - LiII,MgII Ion -
Fe W Exe -
He II Ion -
C 11, N ll,IlI, 0 II-W. F II-V, Ne II-a, Na IU-V, Mg IV-W, All V,VI, Si VI Exe -
N II, 0 ill Exe -
He II, Li II, N II, Ne II, Na II, K II, Ion -
Be U, N V, Ne WI Exe -
He II, H-like ion with 2 =- and He- like ion with 2 =- Exe -
P II, s D, ca II, m,ArlV Exe -
S II, CL RI, Ar lV, K V, Ca VI, V Ix, Cr X, Mn Xl, Fe W Exe -
Ba II Exe -
N V Exe -
N V Exe -
Ba Il Exe -
238 Atomic Dam and Nuclcw Dam Tables. Vd. 31, No. 2. !36ptmaSr 1984
Y. ITIKAWA et al. Electron Collisions with Positive Ion.3
TABLE III. Theoretical Papers SIX page 217 for Explanation of Tables
70 T9 M. Golshani, Phys. Rev. AZ, 2340 (1970) Excitation of highly ionized atoms by electron impact
[modified CB, 3s-3p, 3p-3d; 20-120 a.u.]
70 TlO Y-K. Kim and M. Inokuti, Phys. Rev. Al_, 1132 (1970) Total cross sections for inelastic scattering of charged particles by atoms and molecules. IV. Positive lithium ion
[asymptotic form of cross section (for fast collision) estimated as a difference between total inelastic and excitaion cross sections]
70 Tll T.K. Krueger and S.J. Czyzak, Proc. Roy. Sot. A*, 531 (1970) Excitation of forbidden lines in gaseous nebulae. Il. Calculations
for 3pq ions [DW, transitions between states within the ground configuration
3s23pq (q=l to 5); at three different energies]
70 T12 J.L. Kulander, J. Quant. Spectrosc. Radiat. Transfer 10, 299 (1970) A comparison of electron impact ionization rates for rand 0 ions
[kT, =l- 10OOeV; Lotz (empirical), Garcia, Thomas-Garcia
(69T16), Thomson (classical), Allen (Astronomical Quantities 2nd ed.), House (Ap.J. suppl. g, 307) compared]
70 T13 K.C. Mathur, A.N. Tripathi and S.K. Joshi, Int. J. Mass Spectrometry and Ion Phys. 4, 483 (1970) Electron impact ionization of singly and doubly charged ions
[Thomas-Garcia (69T16) method; threshold to 1 keV]
Fe %I, Co &ll, Ni MlI,CuxIx Exe -
Li II Ion -
P lI,m, s II-N, CL II-V, Ar II-VI, K III-VII, Ca N-WI, V V,wI-XI, Cr VIII- XI, Mn M-XIII, Fe X-XW, Co XI, Ni W-Xl’ Exe - N II-W, 0 II-UU Ion -
Ar II, Kr II, Xe II, Ba II, Sr II, Sn II, 4 II, Zn II, Cd II, Hg II, Ar Ill, Kr Fob Xe m, Hg III -
70 T14 D.L. Moores and H. Nussbaumer, J. Phys. B3, 161 (1970)
The ionization of Li+ and Mg+ by electron impact [CB, Li II: 85 eV- 25 keV; Mg ll: 22 eV- 2 keV]
70 T15 H. Nussbaumer and D.E. Osterbrock, Astrophys. J. 161, 811 (1970) On the forbidden iron emission lines in Seyfert g=xies
[Fe VII: transitions between 3F,1D,3P,1G; DW
Fe X,X3X: ‘Pli2 - ‘P3,2; estimated using fij ]
70 T16 D.E. Osterbrock, J. Phys. B3, 149 (1970)
Excitation of semi-forbidden 2s2 3 P lines observed in quasars and nebulae
[CC, 2s2 ls-2s2p3P,lP]
Li II, Mg II Ion -
Fe W,X,xD( Exe -
B It, C III, N Y, OV,NeW Exe -
70 T17 D. Petrini, Astron. Astrophys. 2, 392 (1970) The electron excitation rate of the green coronal line 5302 A
[cc, CB, 2pJo ,2s,,,2D~,,2p,,,zD'~,]
70 T20 N.P. Poshyunaite, A.V. Lyash and A.B. Bolotin, Opt. Spectosc. 29, 424 (1970) Excitation of carbon atoms and carbon-like ions by electron impact
[Vainshtein-Presnyakov-Sobelman approximation, Born and Born-
Ochkur, 2s22p2-2s2p3]
Fe XIV Exe -
N II, 0 III Exe -
70 T18 D.E. Roberts, J. Phys. B3, 676 (1970) Electron excitation and emission of the resonance lines of Si II
[semiclassical perturbation, all allowed resonance transitions
between 3s3p2,2D,2s,3s24s2S,3s23d2D; X=1-4]
Si il Exe -
70 T19 H.E. Saraph, J. Phys. B3, 952 (1970)
Excitation of Ca+ by electron impact: polarization of line radiation Ca D Exe and transitions between fine-structure levels
-
[some transitions between 4s2S, 2
3d D3/2,5/2* 4p ̂‘P
w ,312 ; R-matrix claculated by Burke and Moores (68T4) used]
1971
71 Tl 0. Bely, S.B. Schwartz and J.L. Val, J. Phys. B+, 1482 (1971)
Autoionization structure in the ionization of Ba+ by electron impact [lo-110 eV; direct plus autoionizaton; based on Rudge-Schwartz
formulation (66T12)]
71 T2 M. Blaha, Sol. Phys. II, 99 (1971)
Ball Ion
Fe XW Exe -
239 Atomic Data md Nudesr Data Tab!n(l. Vol. 31, NO. 2. SeptmOW 1284
Y. ITIKAWA et al. Electron Collisions with Positive Ions
TABLE III. Theoretical Papers See page 217 for Explanation of Tables
Theoretical intensities of Fe XIV in the solar EUV spectrum
[CB, excitation of 45 states of 3sm3pn3dq and 3sZ4k; analytic ap- proximation of collision strengths]
71 T3 J. Davis and S. Morin, J. Quant. Spectrosc. (1971)
Radiat. Transfer z* 463
Threshold behavior of free-free Gaunt factor for atoms and ions
71 T4 J. Davis and S. Morin, J. Quant. Spectosc. Radiat. Transfer 11, 495 AL III Exe (1971)
-
Relevant atomic parameters for doubly-ionized aluminum [IP (formulation by Burgess 64T6), excitation of first 4 multi- plets; S-30 eV]
71 T5 D.R. Flower, J. Phys. B 4, 697 (1971) N V, Si W, Fe Collision strengths for electron excitation of highly ionized, com- WI-W,X5I Exe - plex atoms
[DW, N V, Si XII: transitions between lsZ2s,2p,3s,3p,3d; Fe WI:
transitions between 3sZ3p2, 3s3p3,3p3d; Fe Wr: transitions be-
tween 3s23p,3s3p2,3s23d; Fe w: transitions between 3s2,3s3p,
3p2 3s3d; Fe l&E: incjdent energies]
transitions between 2p6,2p53s,3p,3d; at a few
71 T6 D.R. Flower and C. Jordan, Astron. Astrophys. l4, 473 (1971) Fe W Exe On the identification of the X417 line in the solar extreme ultra-
-
violet spectrum
[DW, transitions between 3s2 ‘S,3s3p 3Po 1 2,3s3p ‘P at 3.1 Ry
(relative to the ground state); excitatlo: 3s2 ‘S+3s3p 3P,1P,
3p2 1D,3P,1P,3s3d 3D,lD at 6.9 Ry]
71 T7 L.B. Golden and D.H. Sampson, Astrophys. J. 170, 181 (1971) H-like Exe Electron-impact cross-sections and rates for nL+n’1’ transitions in
-
hydrogenic ions and hydrogen [CB, He II: 2t+33a’, X=1- 7; He II and H-like ion with Z=-: 1s +311’, X=1-4; He Il., Li III, B V, H-like ion with Z =a: IS + 2!2’, X=1; semiempirlcal cross section derived]
71 T8 A. Jacobs, J. Quant. Spectrosc. Radiat. Transfer 11, 143 (1971) H-like Exe Coulomb-Born excitation cross-sections of hydrogen-like ions by elec-
-
tron impact at threshold [CBO and CB +Bely’s exchange approximation, H-like ion (Z =-): 1s + nl? (n 2 7), 2s,2p+n9. (n = 3 - 7), 3s,3p,3d+nk (n = 4 - 7) at x= l]
71 T9 Y.-K. Kim andM. Inokuti, Phys. Rev. AZ, 665 (1971) Li II, H-like Ion Total cross sections for inelastic scattering of charged particles by atoms and molecules. V. Evaluation to the next order beyond the Bethe asymtote.
[Born (Bethe +correction), Li II and H-like ions: asymptotic form of ionization cross section]
71 TlO K.C. Mathur, A.N. Tripathi and S.K. Joshi, Astrophys. J. 165, 425 Be II, B III, C WI, (1971) NV, 0 VI, F W, Cross-sections and reaction rates for electron--impact ionization of Ne, VII, All III, P lithium-like and sodium-like positive ions V, Ca X, Fe m
[BEA, Th-1000eV; rate for kTe=l- 9000eV] Ion -
71 Tll S. Ormond, K. Smith, B.W. Torres and M.J. Conneely 7th ICPEAC p, 735 NII Exe (1971)
-
Electron impact excitation cross sections in atmospheric atoms and ions
[transitions between 3P,lD,1S; preliminary results; final re- sult + 73T9]
71 T12 G. Peach, J. Phys. BQ, 1670 (1971) Li II, Na II, Mg Ionization of atoms and positive ions by electron and proton impact lI.IU, K II Ion
[Born, loglO(E/I) = 0 - 2.01 -
71 T13 I.C. Percival and D. Richards, J. Phys. B$, 932 (1971) Excitation of highly excitaed hydrogenic ions and atoms by charged particles DI
H-like Exe -
[IP, transitions between highly excited states; sudden approxi- mation for close collisions and first-order perturbation method for distant collisions]
71 T14 A.R.P. Rau, Phys. Rev. At, 207 (1971) Two electrons in an Coulomb potential. Double -cant inuum wave funct - tions and threshold law for electron-atom ionization
H-like Ion -
240 Atomic Data arul - Data Tnbb88. Vol. 31. NO. 2, SaPtU’thr 1334
Y. ITIKAWA e.t al. Electron Collisions with Positive Ions
TABLE III. Theoretical Papers See page 2 17 for Explanation of Tables
[threshold law] 71 T15 D.H. Sampson and L.B. Golden, Astrophys. J. 170, 169 (1971)
Semiempirical cross-sections and rates for excitation and for ioni- zation of hydrogenic ions by electron impact
[n=l+Z, 3; 2+3; and ionization; CB I,II, CBO, CC compared; X=1- 10; semiempirical formulae given]
71 T16 D.N. Tripathi and D.K. Rai, J. Chem. Phys. 55, 1268 (1971) Cross section for double ionization by electron impact: Li+, Na+, K+
[Gryzinski-semiclassical, double ionization; 80 eV - 10 keV] 71 T17
1972 72 Tl
72 T2
72 T15
72 T3
72 T4
72 T5
72 T6
72 T7
D.N. Tripathi and D.K. Rai, J. Quant. Spectrosc. Radiat. Transfer lJ, 1665 (1971) Cross sections for ionization of ions by electron impact
[various classical and empirical methods; up to lo4 4
0. Bely and P. Faucher, Astron. Astrophys. Is, 487 (1972) A universal function for ionization of atoms, ions and molecules by structureless charged particles of arbitrary mass and charge
[semiempirical formula derived, based on classical impulse ap- proximation and experimental results]
M. Blaha, Astron. Astrophys. 16, 437 (1972) Excitation of Mg+ by electron collisions
[CB n, transitions between ns (n= 3,4,5,6), np (n= 3,4,S), nd (n= 3,4,5); up to 1.6 Ry]
M. Brocklehurst, Mon. Not. R. Astr. Sot. 160, 19P (1972) Collision strengths for the 10.5~ transit=
[DW, 3p 2PJ - 2PJ, 0.01-0.30 Ry] R.U. Datla, H.-J. Kunze and D. Petrini, Phys. Rev. A6, 38 (1972) Collisional-rate coefficients for sodium-like Ar VIII-ions
[CB, 3L-tnll' (&= 3,p,d, n= 3,4,5, II' =s,p,d,f); lo-300 eV] D.R. Flower and J.M. Launay, J. Phys. BS, L207 (1972) On the validity of the distorted wave method in electron-atom col- lision theory
[DW, 2s2 'S - 2~2p'P,~P, 2p2 3P,1D,1S; 2.0 & 2.5 Ry] A. Jacobs, J. Quant. Spectrosc. Radiat. Transfer 12, 243 (1972) Analytical expressions for excitation and ionizat& cross-sections and rate coefficients of hydrogen-like ions by electron and proton impact
[analytical formulae based on Born-Bethe approximation] A.R.G. Jackson, J. Phys. B>, L83 (1972) Excitation of a C II line observed in quasars
[CC, (2~'2p+Zp~)~P - 2s2p2 4P; 0.35 - 0.75 Ry] S. Kastner, T.S. Smith, C. Wade and M. Blaha, J. Phys. B5, 1351 (1972) Electron excitation cross sections for Si XII
[Zs-np; Zp-nd; 3s-np; 4s-3d; CB; and Zs-ns, np, nd; Born (n- 2, 3, 4, or 7); X=1-10]
He II, H-like with Z=m Exe/Ion --
Li II, Na lI, K II Ion -
He II, N II, Ne II, Na II, K II Ion -
Ion -
Mg II Exe -
S lb' Exe -
Ar VIII Exe -
C III Exe -
H-like Exe/Ion --
C II Exe -
Si XII Exe -
72 T8 R. Mewe, Astron. Astrophys. E, 215 (1972) Interpolation formulae for the electron impact excitation of ions in
H-, He-, Li-, Ne- sequences Exe
the H-, He-, Li- and Ne- sequences - [four parameter empirical fomulae for many transitions from the ground state]
72 T9 D.L. Moores, J. Phys. B5, 286 (1972) C II, N II,IU, 0 II, Electron impact ionization of positive ions with configuration ls2 EI, Ne II, Na II,
2s22pq m, Mg no Ion -
[CB, X=1.5 - 1001 72 T14 H. Nussabaumer, Astron. Astrophys. 16 77 (1972)
Spectral lines in the Be I isoelectY&ic sequence ' 'S-2sZp'P and transitions among 2s2p3P,lD,lS, 0.7 -
C I.U Exe -
72 TlO K. Omidvar, H.L. Kyle and E.C. Sullivan, Phys. Rev. A5, 1174 (1972) Ionization of multielectron atoms by fast charged parTitles
[Born, 10' - 10' eV] 72 Tll A.D. Parks and D.H. Sampson, Astrophys. J. 178, 571 (1972)
Li II Ion -
H-like with Z =-
241
Y. ITKAWA et al. Electron Collisions with Positive Ions
TABLE III. Theoretical Papers See page 217 for Explanation of Tables
Coulomb-Born-Oppenheimer cross-sections for excitation of hydrogenic ions of infinite Z by electron impact
[CBO, ls,Zs,2p - 3s,3p,3d; X= l,l.S]
72 T12 D. Petrini, Astron. Astrophys. l7, 410 (1972) Electron excitation for the 2s+nf transitions in lithium-like ions
(CB, 2s-4fi.SK.6K (K=O%3) at X=1 for l/2-0%0.5: Be II..... ‘Mg.X: 2si4f;Sf,6f at X;1,2,3; Ne VIII: 2s+4s,4p;4d,4f,%,5p,
Sd,Sf at X=1%4]
72 7’13 E. Stingl, J. Phys. Bs, 1160 (1972) The ionization of boron and the isoelectronic ions carbon II, nitro- gen III, and oxygen N by electron impact
[modified CB and CBX, incident energy below 22, 40, 70 Ry, resp.]
1973
73 H.S. Brandi and G.F. Koster, Phys. Rev. A8, 1303 (1973) Parametrization of the cross section for row-energy electron-atom scattering
[~Jsf;,“~ 2p3,2 to various states in the configuration of 3p44p;
73 T2 D.R. Flower and 3.M. Launay, Astron. Astrophys. 29, 321 (1973)
Electron collisional excitation of C+2
[;;]and CC, 2s2 ‘S - 252~ 3P,1P, 2p2 3P,1D,1S; 1.5,2.0, and 2.5
73 T3 D.R. Flower and G. Pineau des Forets, Astron. Astrophys. 24, 181 (1973) Excitation of the Fe XIII spectrum in the solar corona
[DW, transitions between 3~*3p~(~P~ 1 2,1D,1S),3s3p3,3s23p3d states, see also 74T6] , ,
73 T4 M.D. Hershkowitz and M.J. Seaton, J. Phys. B6, 1176 (1973) The calculation of resonances in electron-ion scattering using the distorted wave approximation
[2s2 l S - 2s2p 3P; R matrix determined by variational method us- ing approximate radial functions; up to 2 Ry]
73 TS A.R.G. Jackson, J. Phys. Ba, 2325 (1973) 2 Excitation of semi-forbidden 2s 2p ’ 3P-2s2p3 5So and 2s22p 2Po-
2s2p 2 4~lines observed in quasars [CC, 0.4 - 1 Ry]
73 T15 A.R.G. Jackson, Mon. Not. R. Astr. Sot. 165, 53 (1973) Excitaion of C lI]X2326,0IU]~1664 and o-r semi-forbidden lines in quasars
[C II, N ID 2s22p2P-2s2p2 4P,N It,OIlI 2s22p2 3P-2s2p3 ‘S, rates calculated from 72T6 and 73TS]
73 T6 S.P. Khare and U. Tarain, Proc. Indian Nat. Sci. Acad. EA. 414 (1973)
Total ionization cross sections of He+ ions due to electron impact [semiemprical, 68 eV -10 keVJ
73 T7 M.R.C. McDowell, L.A. Morgan and V.P. Myerscough, 8th ICPEAC p. 294 (1973) Distorted wave polarized orbital calculations of excitation of one electron system by electron impact
[DWPO. ls-2s; 3-20 Ry]
73 T8 M.R.C. McDowell, L.A. Morgan and V.P. Myerscough, J. Phys. B$, 1435 (1973) Electron impact excitation ofHand He+: I. ls+ns transitions
[DWPO, Is-ns (n= 2,3,4,5); differential and integral cross sec- tions; up to 20 Ry]
73 T9 S, Ormonde, K. Smith, B.W. Torres and A.R. Davies, Phys. Rev. A8, 262 (1973) Configuration-interaction effects in the scattering of electrons by atoms and ions of nitrogen and oxygen
[CC, N II: 3P+3D; N Iv: 2s2 ‘S-252~ lp3P and between 2s2 ‘S,
2s3p ’ P, 2s3p 3P; 0 II: 4S-2s2p4 4P; 0 III: 3P-2s2p3 3S,1P]
73 TlO B.N. Roy and D.K. Rai, J. Phys. Ba, 816 (1973) Application of classical collision theory to electron impact double ionization of atoms
Exe -
Be II, C lV, 0 VI, Ne VIII, Mg X, and Li-like ions for l/Z=O%O.5 Exe -
C II, N llI, 0 A’ Ion -
Ar II Exe -
C III Exe -
Fe XIII Exe -
C III, 0 V Exe -
N II,IU, 0 IU Exe -
C 11, N lI,III, 0 III Exe -
He II Ion -
He II Exe -
He II Exe -
N II,lV, 0 II,IU Exe -
Li II Ion -
242
Y. ITXAWA et al. Electron Collisions with Fkwitive ions
TABLE III. Theoretical Papers See page 2 17 for Explanation of Tables
[classical, double ionization; 0.3-2 keV]
73 Tll A. Salop, Phys. Rev. Ai, 3032 (1973) Multi-ionization of krypton and its ions by high-energy electron im- pact
[asymptotic form of the Bethe-Born matrix elements including AI; numerical results given at 20 MeV]
73 T12 J.A. Tully, D. Petrini and 0. Bely, Astron. Astrophys. 23, 15 (1973)
Anomolous electron impact excitation of Ca+ [CB, 4s-ns,np,nd,nf (n = 5 - lo)]
73 T14 J.A. Tully, Canad. J. Phys. Is, 2047 (1973) Collisional excitation of ground state hydrogenic ions
[CB, 1s +ns!np,nd (n = 2 I 6, -); X=1,2,3,4; simple formula for interpolation]
73 T13 R.J. Tweed, J. Phys. Ba, 270 (1973) Double ionization by electron impact: II. Calculations of cross sec-
tions for H- , He and Li+ [Born, up to 2.5 keV; section I (general theory) at p. 2591
1974
74 Tl K.E. Banyard and G.K. Taylor, Phys. Rev. A%, 1019 (1974)
Generalized oscillator strengths for the (ls22s2) ‘S+ (ls22s2p)‘P transition in some Be-like ions
[Born, for momentum change K=O - 3.5 a.u.]
74 T2 A. Burgess and V.B. Sheorey, J. Phys. B1, 2403 (1974) Electron impact excitation of the resonance lines of alkali-like positive ions
[CB’ , CB, CDW, ns+np (n= 3,4,5,6 for the four ions, resp.; X= 1 - 3001
74 T3
74 T4
74 T5
74 T6
74 T7
74 Ta
74 T9
74 TlO
D.H. Crandall, G.H. Dunn, A. Gallagher, D.G. Hummer, C.V. Kunasz, D. Leep and P.O. Taylor, Astrophys. J. 191, 789 (1974) Rate coefficients for electron excitationof the first resonance tran-
Kr II-XVI Ion -
Ca II Exe -
He II, Be lV, 0 WI, H-like with Z =- Exe -
Li II Ion -
B II, C III, N B’, 0 V Exe -
Mg II, Ca II, Sr II,BaII Exe -
CaII,BaJI Exe -
sition in H, Li, Na, Ca, Ca+ and Ba+ calculated from experimental data
[Ca II: 4s 2S+4p 2P; Ba II: 6s 2S+6p 2Pl,2 3,2 analytical ap-
proximation of experimental data+calculati& of excitation and
deexcitation rates; T=103~105K]
J. Davis, J. Quant. Spectrosc. Radiat. Transfer 14, 549 (1974) 0 II-M, N II-V Effective Gaunt factors for electron impact exci=tion of multiply- Exe - charged nitrogen and oxygen ions
[IP, for a few transitions in each ion; g-factor given for X= 1 - 6; also averaged g-factor as a function of AElkT]
W. Eissner and M.J. Seaton, J. Phys. Bl, 2533 (1974)
Electron impact excitation of metastable levels in 02+
[CC, transitions between 3P, ‘D, ‘S; below 0.5 Ry]
D.R. Flower and H. Nussbaumer, Astron. Astrophys. 31, 353 (1974) On the extreme ultraviolet emission spectrum of Fe-Sthr
[transitions between 3s23p2, 3s3p3, 3s23p3d; at Th; correction to 73T33
0 llI Exe .-
Fe XIU Exe -
R.J.W. Henry, J. Phys. B7-, L439 (1974) Excitation of N V by electron impact
[CC, 2s+3s,3p,3d; 6Ry]
N V Exe -
M..Jones, Mon. Not. R. Astr. Sot. 169, 211 (1974) Collision strengths for the electronimpact excitation of certain highly-ionized helium-like ions
Si XIII, Ca XIX, Fe W Exe
[DWandCB’, transitions between 11S,21S,23S,21P,23Pj; both LS
and intermediate coupling]
-
M.R.C. McDowell, V.P. Myerscough and U. Narain, J. Phys. Bl, L195 (1974)
Electron impact on H and He+: II. Coupling effect in the distorted wave polarized orbital approximation
He II Exe -
[DWPO, ls+2s; 0.75%1 Ry]
E. Oran and J. Davis, J. Appl. Phys. 45, 2480 (1974) Electron impact cross-sections and rates for one- and two-electron
AL XU,wI Exe -
aluminum ions [IP, All W:ls,2s+np (n=2%5); 3s+3p,4p,5p; 4s+4p,Sp; 5s+
5p; Zp+3s,4s,Ss; 3p+4s,Ss; 4p+Ss; All III:ls+2%5p; 2s+
243 Atomic Data and Nuclear Data Tatha. Vol. 31. No. 2.W 1884
Y. ITIKAWA et al. Electron Collisions with Positive Ions
TABLE III. Theoretical Papers See page 2 17 for Explanation of Tables
74 Tll
74 T12
74 T13
74 T14
74 Tl5
74 T16
74 T17
74 T18
1975
75 Tl
75 T2
75 T3
75 T4
75 T20
75 T5
3p,4p,Sp; 3s+4p,Sp; 4s+Sp; X=1%8]
A.K. Pradhan, J. Phys. B1, L503 (1974)
Electron impact excitation of Ne 2+
[CC, transitions between 3P,1D,1S; collision strengths for 0 - 0.8 Ry; rate constant for 5000 - 20000K]
A. Salop, Phys. Rev. Ax, 2496 (1974) Multi-ionization of neon, argon, and xenon and their ions by high- energy-electron impact
[ionization including multiple ionization and autoionization; Born-Bethe asymptotic formula calculated; numerical result shown at 20 MeV]
D.H. Sampson and A.D. Parks, Astrophys. J. Suppl. 28, 323 (1974) Electron-impact excitation cross-sections for complex ions. II. Ap- plication to the isoelectronic series of helium and other light elements
[general formulae for many transitions]
H.E. Saraph and M.J. Seaton, J. Phys. Bz, L36 (1974) On the convergence of close-coupling expansions for elec t excitation of N’
[CC, 2s22p2 3 P -lD’lS* below 0 8 Ry] , .
Ne IU Exe -
Ne”+, Ar”+, Xen+ (all n) Ion -
highly-ionized atoms (number of electrons: 1 - 4) Exe -
ron impact N II Exe -
J.A. Tully, J. Phys. Bl, 386 (1974) Collisional excitation of He-like positive ions by electrons
[CB, excitation of nlS, nlP (n = 2 - 6); X = 1 - 31
J.A. Tully and D. Petrini, J. Phys. Bl, L231 (1974) A comparison of the Born and Coulomb-Born approximations for electron impact excitation of positive ions
[Born, CB, 2s - 2p, 3p; X up to 81
J.A. Tully and J.M.P. Serrao, Astronom, Astrophys. s! 187 (1974) Electron impact excitation of metastable helium-like ions
[CB, 2lS -nlS,nlP; 23S-n3S,n3P; X=1, 2, 4, 8, m]
D.W. Walker, J. Phys. BL, 97 (1974) Electron impact excitation of hydrogenic ions
[CB with relativistic wave functions, 1s -25,2p; X=1.07, 1.33, 5.331
A.W. Allen, M. Blaha, W.W. Jones, A. Sanchez and H.R. Gr i Rev. All, 477 (1975) Stark-Eoadening measurement and calculations for singly minum line
em, Phys.
ionized alu-
[DW, broadening of X4663; SOOO-40000K]
D. Banks, J. Phys. B$, 588 (1975) Exchange effects in ionization of hydrogenic ions by elec tron impact
[scaled cross section vs. X (= 1 - 10); BEA based on Mott scatter- ing formula]
A.K. Bhatia, J.W. Cooper and A. Temkin. 9th ICPEAC p. 398 (1975) Comparison of distorted wave and close-coupling results for helium- like positive ions
[DW, CC, llS-2lS; 5.9 and 13.4 Ry]
S. Chandra and U. Nariain, J. Phys. Bs, 770 (1975) Electron impact ionization cross sections of some members of the he- lium isoelectronic series
[semiempirical; threshold to 30 keV]
J. Davis,P.C.Kepple and B. Blaha, J. Quant. Spectrosc. Radiat. Trans- fer l& 1145 (1975) Distorted wave calculations for multiply charged nitrogen and oxygen
[DW, 0 It: excitation of 2s2p4,2p23s;
N II, 0 III: ext. of 2s2p3;
N ICI, 0 IV: ext. of 2~2~‘; N IV, 0 V: ext. of 2s2p and 2~3~; N V, 0 VI: ext. of 2p, 3p; also N III: ext. of 3sJ
D.R. Flower and H. Nussbaumer, Astron. Astrophys. 42, 265 (1975) Relative intensities of solar emission lines of ions in the sodium isoelectronic sequence
Li II, Be III, 0 W, He-like with 7. =m Exe -
Be II, N V, Ne VIE, Li-like with Z =- Exe -
Li II, Be III, 0 VII, He-like with Z =- Exe -
He II, Mn w, Sn L, H-like with Z= 100 Exe -
Aa II Exe
H-like with Z/n=0 *m Ion -
Li II Exe -
Li II, B lV, 0 VII, Ne IX, Mg X Ion -
0 II-M, N II-V Exe -
Si IV, S IX, Ca X, Fe IM Exe -
244 Atomic Data and Nuclear Oats TabW Vol. 31. No. 2. SepMmbsr 1334
Y. ITIKAWA et al. Electron Collisions with Positive Ions
TABLE III. Theoretical Papers See page 217 for Explanation of Tables
75 T21
75 T22
75 T6
75 T7
75 T8
75 T9
75 TlO
75 Tll
75 T12
75 T23
75 T13
75 T14
75 T15
[transitions between 3s 2 Sl,2, 3p2P1,2,3,2p3d 2D 3/2,5/2 ; at 3 values of X]
D.R. Flower and H. Nussbaumer, Astron. Astrophys. 45, 145 (1975) On the extreme ultraviolet solar emission of B-likeions: 0 lV
[CC, 2s22p2PJ-2s22p2PJ,,2s2p2 4P,2D,2S,2P;
2s2p 24 PJ-2s2p2 4PJ,,2D,2S,2P,2p3 4S;2.8-5.6 Ry]
D.R. Flower and H. Nussbaumer, Astron. Astrophys. 45: 349 (1975) On the extreme ultraviolet solar emission of B-like ions: Na VII, Si X, S XII
[DW, 2s22p2P,2s2p2 4P-2s2p2 4P,2D,2S,2P,4-12 Ry] M.A. Hayes, J. Phys. BE, L8 (1975) Calculated collision strengths for electron impact excitation of N V
[CC, 2s-2p,3s,3p.3d; at 6 Ry] T. Ishihara and J.C.Y. Chen, 9th ICPEAC p. 79 (1975) Eikonal approximation for scattering of charged particles by ions
[Coulomb-Glauber, ls-2s; 50-500 eV; numerical error corrected in 75T8]
T. Ishihara and J.C.Y. Chen, J. Phys. BE, L417 (1975) Eikonal approximation for scattering of charged particles by ions
[Coulomb-Glauber, ls-2s; 50-500eV;also DCS at 100, 200, 300 eV] T. Kato, C.E.N. Report CEA-R-4660 (Centre alEtudes Nucleaires de saclay) (1975) Calcul au coefficient d'excitation par collision avec des electrons
[comparison of Mewe(72T8)'s empirical formula with experimental data and other calculations]
M. Malinovsky, Astron. Astrophys. 43, 101 (1975) New calculations of atomic data concerning E.U.V. lines of 0 V.
[DW, 2s2 'S-2s2p 1P,3P, 2s3p 'P; 2s2p 3P-2p2 3P; 2s2p 3PJ-2s2p 3PJ,; up to 13 Ry]
H.E. Mason, Mon. Not. R. Astr. Sot. 170, 651 (1975) The excitation of several iron ant calcium lines in the visible spec- trum of the solar corona
[DW, Fe X: 3s23p5 2Pl,2 3/2 - 3s3p6,3s23p43d states;
Fe XI: 3s23p4 - 3s3p5,3s 3p '2 3 3a,3p6 states; Fe XlV: 3s23p - 3s3p2,3s23d states; Ca XJI: 2s22p5 - 2s22p43s,2s22p43a,2s2p6 states; Ca XIII: 2s22p4 - 2s2p5,2p6 states; Ca Y: 2s22p2 - 2s2p3,2p4 states; at X=1]
M.R.C. McDowell, (1975)
L.A. Morgan and V.P. Myerscough, J. Phys. Bi, 1053
Electron impact excitation of H and He+. III. ls+np transitions [DWPO, ls-Zp,3p,4p; up to 250 eV]
L.A. Morgan and M.R.C. McDowell, J. Phys. BE, 1073 (1975) Electron impact excitation of H and He+ lV. Orientation and alignment of the 2p state
[DWPO, Is-Zp] H. Narumi and A. Tsuji, Prog. Theor. Phys. 53, 671 (1975) Inelastic Coulomb scattering in the Glauber approximation
[Glauber, ls-2s,2p; 40-300 eV; also DCS for Is-2s for He+; ls-2s; Z2-4Z2 Ry for H-like ion with 2 =-]
A.D. Parks and D.H. Sampson? J. Phys. Bg, 774 (1975) Inner-shell excitation of lithium-iike ions by electron impact
[CBO, general formulae for oscillator strengths for ls22s+ls2s2, ls2s2p,ls2p2]
L.P. Presnyakov and A.M. Urnov, J. Phys. BE, 1280 (1975) Asymptotic approach to the theory of excitation of multiply-charged ions by electron impact
[2s-3s and Zp-3s; Coulomb Green function; l/Z expansion formulae;
0 lV Exe -
Na VII, Si X, S XII Exe -
N V Exe -
He II Exe -
He II Exe -
C VI, N lV,M, 0 V, Ne W,X Mg VIlI,W, Si VII-IX, S IX-XI. Ca W-w, Fe WI- XXII,NiyIX,XU,m, PE Exe - 0 V Exe -
Fe X,XI,XN, Ca W, Wr,W Exe
He II Exe
He II Exe
He II, also H-like with Z =- Exe -
Li-like Exe -
0 VI Exe
245
Y. ITIKAWA et al. Electron Collisions with Positive Ions
TABLE III. Thea&al Papers See page 2 17 for Explanation of Tables
resonances near threshold] 75 T16 W.D. Robb, J. Phys. B& L46 (1975)
Close-coupling calculations for electron impact excitation of N+
JM, 3P-1D, 3P-1S; up to 1.2 Ry] 75 T18 A.D. Stauffer and L.A. Morgan, J. Phys. BE, 2172 (1975)
A generalization of the Coulomb-projected Born approximation [Coulomb-projected Born, ls-2s; DCS at 100 eV; integral cross sec- tion at l-100 eV]
75 T24 L.A. Vainshtein, Sov. Phys. JETP 40, 32 (1975) Role of exchange in the excitation of ions by electrons
[Ochkur with orthogonalized functions? 0 V 2s-Zp X= l-10; 0 W ls-2p X=1-10; ls-3d X=1-18; Li II ls-2s,2p, 0 V 2s-3s,3p,O W ls-3s,3p,4d,4f, 0 WI Is-2s,2p X=1]
75 T19 D.W. Walker, J. Phys. B$, 760 (1975) Electron impact excitatzon of hydrogenic ions. Il.
[relativistic CB, CBO,ls-2~,2pl,~ 3,2; X=1.07,5.33; also DCS for ls-2s; X=1.33 for Sn L and Z=lGO]
1976 76 Tl
76 T2
76 T3
76 T4
76 T5
76 T6
76 T7
76 T8
76 T9
76 TlO
76 Tll
L.G.J. Boesten, H.G.M. Heideman, T.F.M. Bonsen and D. Banks, J. Phys. B$ Ll (1976) Threshold effects in the ionization of He+ by electron impact
[energy and angular momentum distribution of two ejected elec- trons; near threshold,classical]
B.H. Bransden and C.J. Noble, J. Phys. Bz, 1507 (1976) Electron impact excitation of atomic hydrogen and hydrogenic ions
[IP formulation of 2nd order potential method, ls-2s,Zp; ZSZ'- 250Z2 eV]
S. Chandra, H.P. Mital and U. Narain, Physica B & C 83, 384 (1976) Ionization cross sections and rate coefficients for atoms, ions and molecules
[analytical fitting of experimental data+rate] W. Dankwort, E. Trefftz, Astron. Astrophys. z, 365 (1976) Oscillator strengths and collision strengths zn Si X
[CB, many transitions at threshold and 86, 172, 260 eV, and rate coefficient at lo6 , 2 x106 and 3r10dK]
J. Davis, P.C. Kepple and M. Blaha, J. Quant. Spectrosc. Radiat. Transfer g, 1043 (1976) Electron impact excitation coefficients for laboratory and astro- physical plasmas
[DW, l-6 transitions for each ion; effective Gaunt factor vs. -energy and/or rate vs. Te]
J. Davis and K.G. Whitney, J. Appl. Phys. 47, 1426 (1976) Line emission in AP. XI: as an optical diagnostic in laser-heated plasmas
[DW. many transitions; X=1-4] Y. Hahn, Phys. Rev. AE, 1326 (1976) Inner-shell excitations and ionizations of atomic ions by high- energy electron impact
[Born-Bethe, excitations at 10 keV and ionization (including autoionization) at l,S,lO keV]
R.J.W. Henry and J.J. Matese, Phys. Rev. A1Q, 1368 (1976) Excitation of He+ by electron impact
[CC, ls-2s,2p; 40-120 eV] T. Kato, Astrophys. J. Suppl. 30, 397 (1976) Radiation from a hot, thin plasma from 1 to 250 i
[estimated from optical f-value using empirical formula for g-factor suggested by Mewe]
C. Mitra and N.C. Sil, Phys. Rev. A1Q, 1009 (1976) Excitation of hydrogen-like ions by electron impact
[CB, CBO, ls-2s; X=1.2,4,10] S. Nakazaki, J. Phys. Sot. Jpn. 4l, 2084 (1976) Electron-impact excitation cross-sections for helium-like ions:
N II Exe -
He II Exe -
Li II, 0 V,M,WI Exe -
Mn BY, Sn L H-like with Z =lOO Exe -
He II Ion -
H-like Exe -
c II, 0 II, K II, NllI,OllI Ion -
Si X Exe -
Ne Vl.W, Mg WI, X, Ca M, Si Ix, Fe IX,Xt,XlV,R, ~,~,X,~w, XUlI,XU,Niw Exe -
All XI Exe -
Ar M.M,W,WZI Exe/ion --
He II Exe -
He II, C II-VI, N m-w, 0 w-m, Ne III-X, Mg IU- W, Si V-l;N, S VT- WI, Ca VI-lX, Fe MI-WI, Ni X- MI Exe - He II, Li III, C VI, Ne X, Sn L Exe = NVI OW, Ne k Exi -
246 Atomic Oat, and N&ear Oma Tabha, Vc4.31, NO. 2,3e@tnb~ lSS4
Y. ITIKAWA et al. Electron CoRkions with Positive Ions
TABLE III. Theon%ical Papers See page 217 for Explanation of Tables
76 Tl2
76 T13
76 Tl8
76 T14
76 Tl5
76 T16
76 T17
1977 77 Tl
77 T2
77 T3
77 T23
77 T4
77 T5
77 T24
77 T25
CV,NVI,O WandNeM [CB, 1%ZIP 3'P; 23S-23P,33P; 23P-33S; up to 20 keV (excitation from ground state) or to 2 keV]
A.D. Parks and D.H. Sampson, Astrophys. J. 209, 312 (1976) highly-charged Electron impact excitation cross sections for complex ions. III. High- ions with three ly charged ions with three valence electrons valence electrons
[collision strengths approximately expressed in terms of scaled Exe collision strengths for H- or He-like ions with Z=-]
-
A.K. Pradhan, J. Phys. Br, 433 (1976) 0 II Exe - Close-coupling calculations for electron collisions with O+ and for bound states of neutral oxygen
[CC, transitions between 4S,2D,2P and fine-structure transition ZD 5/2 - 2D3,2]
A.K. Pradhan, Mon. Not. R. Astron. Sot. 177, 31 (1976) Oll,SlI Exe Collision strengths for [OlI] and [SD]
-
[CC and DW, 0 II transitions among 4 2 2 S, D, P rates calculated from 76Tl3; S II transitions among 4S,2D,2P]
A. Salop, Phys. Rev. A=. 2095 (1976) C II-M, N II-W, Electron impact ionization of multicharged ions 0 IT-WI, Ne II-X,
[BEAl Ar V-WI Ion - W.L. van Wyngaarden and R.J.W. Henry, J. Phys. Bz, 1461 (1976) N V Exe 'Excitation of N V by electron impact
- [CC, (2s or 2p) - (2p,3s,3p, or 3d); l- 16 Ry]
W.L. van Wyngaarden and R.J.W. Henry, Canad. J. Phys. 54, 2019 (1976) Ne VIII Exe Excitation of Ne MI by electron impact
- [CC, 2s-Zp,3s,3p; 2p-3s,3p,3d; at 14,18,30 Ry]
C.A. Weatherford, J. Phys. Bz, L135 (1976) He II Exe - A calculation of the ls-2s transition in He+ induced by electron impact
[DW, Is-2s; DCS and integrated cross section; 3.0-3.3 Ry]
K.L. Baluja and M.R.C. McDowell, J. Phys. BlO, L673 (1977) Electron impact excitation of Fe XUI and oth% one-electron ions
[CBO, 1s - np (n= 2 - 6) for Fe XUI, X=1- 4; 1s - 2s for all the ions; X=1- 26.671
K.A. Berrington, P.G. Burke, P.L. Dufton and A.E. Kingston, J. Phys. BlO, 1465 (1977) Electron collisional excitation of C III and 0 V
[N, 25 2 'S - 2s2p 3P,1P; up to 10 Ry] A.K. Bhatia and A. Temkin, J. Phys. BE, 2893 (1977) A distorted-wave methodology for electron-ion impact excitation: calculation for two-electron ions
[DW, llS - 21S,1P,3S,3P]
A. Burgess, H.P. Summers, D.M. Cochrane and R.W.P. McWhirter, Mon. Not. R. Astr. Sot. 179, 275 (1977) Cross-sections for xization of positive ions by electron impact
[exchange classical impact parameter (ECIP), X=1-10 for He II, N III, Na II, Mg II; X=1-2 for others]
J. Callaway, J.N. Gau, R.J.W. Henry and D.N. Oza, 10th ICPEAC p. 1102 (1977) Resonances in the electron impact excitation of C+3
[CC, 2s - 2p; 2.25 - 2.50 Ry] J. Callaway, J.N. Gau, R.J.W. Henry, D.H. Oza, Vo Ky Lan and M. LeDourneuf, Phys. Rev. AE, 2288 (1977) Excitation of C3+ by electron impact
(CC, 2s - 2p; threshold to 2.6 Ry] J.J. Chang, J. Phys. BE, 3335 (1977) Electron scattering by Ne+: a relativistic R-matrix calculation
[RM, 2s22ps 2P - 2s2p6 2S 2.5 Ry] J. Davis, P.C. Kepple and M. Blaha, J. Quant. Spectrosc. Rad. Transf. la, 535 (1977) Line strengths, collision strengths and excitation rates for
He Il. Be N, C VI, 0 VIII, Ne X, Si XIV, Ca YX, Fe XWI. Exe - C III, 0 V Exe -
Li II, Be III, B N, CV,NVl,OW, F VIE, Ne M, Si XDl.CaXlX.FeNW Exe ' - He II, C II, N Dl, 0 II,IU, Na II, Mg lI,JII, Ca II, Rb II. Sr II, Cs II, Ba II, TK II Ion - C Ilr Exe -
C IV Exe -
Ne II Exe -
Si M-XBT Exe -
247 At& Data and N&XV Ottta TOM%, Vol. 31. NO. 2.3Wt- 1884
Y. ITIKAWA et al. Electron Collisions with Positive Ions
TABLE III. Theoretical Papers See page 217 for Explanation of Tables
multiply-charged silicon ions [DW, many transitions X=1- S]
77 T6 D.R. Flower, Astron. Astrophys. 54, 163 (1977) Fe W Exe Excitation of the Fe XII spectrum% the solar corona
-
[within groundstate configuration (3s23p3) and from ground state to 3s3p4, 3s23p23d states; at 6.6 Ry above the ground state; calculated in LS coupling and then transformed into intermediate coupling scheme]
77 T7 D.R. Flower, Astron. Astrophys. 56, 451 (1977) Fe IX Exe Atomic data for the coronal ion Fe a+
-
[transitions between and within 3p6 and 3p53d; at 5.5 Ry relative to the ground state]
77 T8 J.N. Gau and R.J.W. Henry, Phys. Rev. Ag, 986 (1977) ClV,ArWI Exe Excitation of lithium-like ions by electron impact
-
[CC, 2s-2p,3s,3p,3d; Zp-3s,3p,3d; X=1-3] 77 T9 L.B. Golden and D.H. Sampson, J. Phys. Bg, 2229 (1977) H-, He-, Li-, Be-,
Ionization of highly charged ions by electron impact B-, C-, N-, O-like [H-like ion with Z=m at ls,2s,2p state; asymptotic form of ioni- Ion
zation cross section at high energy; also approximate estimation - of cross section for He-, . . . , O-like ions for ionization from ls,2s,2p orbitals]
77 TlO Y. Hahn, Phys. Lett. A62, 310 (1977) Improved Bethe approxi=tion for electron-ion impact ionization
[Bethe, Ar lV: from 3s,3p; k=2-25 a.u.; Fe IX: from 3p; k= S-30 a.u.]
77 Tll Y. Hahn, Phys. Rev. Lett. 39, 82 (1977) Dominant Auger process in electron-impact ionization of MO ions
[Bethe, direct+Auger ionization; k= 20-g a.u.]
Ar NJ, Fe IX Ion -
MO XV Ion -
77 T26 Y. Hahn, Phys. Rev. Ag, 1964 (1977) C Y, N V, Ne lV, Distorted-wave theory of electron-ion collisions. I. Direct excitation Ar lV, Fe M,&lI and ionization Exe/Ion
[modified Bethe, excitation C lV, 2s-2p 4-400 Ry; ionization --
C lV,N V, Ne lV,Ar lV, Fe M,WII 4-400 Ry] 77 T12 M.A. Hayes and M.J. Seaton, J. Phys. BlO, L573 (1977) He II, Li III, C VI,
Accuracy of the distorted-wave approxiiiijition for excitation of hydro- Ne X Exe - genie ions
[CC, DW, ls-2s,2p; X=1-4] 77 T13 M.A. Hayes, W.D. Norcross, J.B. Mann and W.D. Robb, J. Phys. BE,
L429 (1977) Be II Exe -
Electron impact excitation of Be+: a benchmark study [CC, CB, 2s-2p; cross section and polarization of radiation emitted; 4-990 eV]
77 T14 T. Kato, IPPJ-AM-t, Institute of Plasma Physics, Nagoya University Exe/Ion -- (1977) Ionization and excitation of ions by electron impact -Review of empirical formulae-
[reliability and applicability of various empirical formulae discussed]
77 T15 M. LeDourneuf and Vo Ky Lan, J. Phys. BlO, L35 (1977) ClV,NII Exe The variable-phase method in multichanna electron-atom or electron-
-
ion scattering [comparison between the "variable-phase method" and the ordinary .approach for some selected values-of incident energy]
77 T17 M.R.C. McDowell, L.A. Morgan. V.P. Myerscough and T. Scott, J. Phys. He II, Li II, Be BlO, 2727 (1977j
- III, B Y, C V,VI, N
E%ctron impact excitation of one- and two-electron positive ions VI,OW,VIlI,FVDI, [DWPO, ls-2s,2p; 0.75Z2 - 20Z2 Ry for H-like ions; 11S-21S,21P; Ne M,X, Si WI, Ca X=1-10 for He-like ions] XX, Fe w Exe -
77 Tlg S. Nakazaki and T. Hashino, J. Phys. Sot. Jpn. 43, 281 (1977) Excitation of beryllium-like ions by electron iFact
[CB, 2s2 'S- 2s2p 1P; threshold to 4 keV]
C III,N B',OV, Ne W Exe -
77 T30 D.E. Osterbrock and R.K. Wallace, Astrophys. Lett. 19, 11 (1977) Effective collision strengths of quasar ultraviolet emission lines
[;;;;;;;;e of the emission rates for various ions, T= 5000-
Exe
77 T19 A.D. Parks and D.H. Sampson, Phys. Rev. AE, 1382 (1977) Electron-impact excitation of highly charged beryllium-like ions
Be-like with Z=- Exe
248 Atomdo Data myl Nucbw Data Tan&% vd.31.No.2. m 1884
Y. ITKAWA et al. Electron Collisions with Positive Ions
TABLE III. Theoretical Papers See page 217 for Explanation of Tables
with inclusion of configuration mixing [transitions between 2s' 'S, 2p2 lS, 252~ 1P,3P; up to 3.25 Z2 Ry; excitation to 211311' states; X=1.0 and 1.51
77 T27 J.M. Peek and J.B. Mann, Phys. Rev. A16, 2315 (1977) Ne WI Exe Continuum orbital approximation in we=-coupling theories for inelastic electron scattering--
_ -
[weak coupling theory with the Langer uniform approximation, 2s-2p X=1-300]
77 T28 J.D. Perez, J. Appl. Phys. 48, 1969 (1977) All XIII Exe Electron impact excitation cross sections and rates for hydrogen-like
-
ions [CB, n=l- 2 X=1- 10, rates for transitions among n= l-51
77 T20 M.S. Pindzola, Phys. Rev. A15, 2238 (1977) 0 III Exe Electron-impact excitation z 0 III in the distorted wave approxima-
-
tion [DW, 3P - 'D; 2.5 - 30 eV]
77 T21 D.H. Sampson, A.D. Parks and R.E.H. Clark, Phys. Rev. AE, 1393 (1977) Li-like with Z=m (1977) Exe Effects of configuration and parentage mixing on inner-shell excita- - tion of highly charged lithium-like ions by electron impact
[transitions from 1~~2s or ls22p to many states with 1~21139,' configuration; X=1, l/5, 2, 2.251
77 T29 P.R. Simony, J.H. McGuire, J.E. Golden and B.R. Junker, Phys. Rev. H-like Exe As, 1401 (1977)
-
Generalized Coulomb-projected Born-approximation cross sections for atomic excitation by charged-particle impact
[Coulomb-projected Born, ls-2s] 77 T22 B.R. Tambe, J. Phys. BlO, L249 (1977) C II Exe
Electron-impact-inducehfine-structure transitions in singly ionized -
carbon [CC, 2Pl,2 - 2P3,2; 0.000633 - 0.2 Ry; also rate coefficient at lOOK]
1978 78 Tl K.L. Baluja, M.R.C. McDowell, L.A. Morgan and V.P. Myerscough, J. He II Exe
Phys. Bll, 715 (1978) -
Electro?i?moact excitation of hydronenic systems in a distorted-wave model
[DW, ls-2s Th-lOOOeV, ls-2p Th-300 eV] 78 T2 D. Banks and L.G.J. Boesten, J. Phys. Bg, 2209 (1978) He II Ion -
Ionization of He+ ions by electron impact [classical, scaled cross section for n=l- n'; X=1 - lo]
78 T3 W.D. Barfield, IEEE Trans. Plasma Phys. PS-6, 71 (1978) On cross sections for electron impact ioxtion of multi-charged
C IV,VI, NIII, 0 Y,
ions VI, Mg ID, Fe Y, W Ion
[comparison of various claculations (CB, ECIP, semiempirical) and measurements]
-
78 T4 M. Blaha and J. Davis, J. Quant. Spectrosc. Rad. Transf. 9, 227 Ca X, Fe WI, Zn (1978) XK, Kr m, MO Electron impact excitation of highly charged sodium-like ions BXII Exe
[DW, transitions among 35,3p,4s,4p,4d,4f, X=1-16] -
78 TS B.H. Bransden, M. Cracker, I.E. McCarthy, M.R.C. McDowell and He II Exe L.A. Morgan, J. Phys. Bll, 3411 (1978)
-
Effective exchange poteii-iials for inelastic scattering [CC, ls-2s,2p,3.2-6.0 Ry]
78 T6 A. Burgess and J.A. Tully, J. Phys. BG, 4271 (1978) On the Bethe approximation
[Coulomb-Bethe approximation] 78 T7 R.E.H. Clark and D.H. Sampson, Atomic Data Nucl. Data Tables c,
527 (1978) OW,SiXDI,Ca
Intermediate-coupling collision strengths for P-P and P-D transitions XK, Few, ZnXUX,
produced by electron impact on highly charged He-like ions Kr w, MO XLI, Sn XLM Exe
[CBX. transitions among ls2p,lsnp,lsnd (n= 3,4,5), X=1-4] -
78 T8 A.K. Das, N. Maiti and N.C. Sil, Indian J. Phys. 52B, 83 (1978) Li II Exe Electron exchange by the CBO approximation in theexcitation of
- helium-like positive ions by electron impact
[CBO, 11S-21S,23S,X=1-5]
249 Atcur& Data and Nudsar Data TatSea, Vol. 31, NO. 2, 3qstmntac 1934
Y. ITIKAWA et al. Ektron Collisions with Positive Ions
TABLE III. Theoretical Papers See gmge 217 for Explanation of Tables
78 T9 J. Davis, K.G. Whitney and J.P. Apruzese, J. Quant. Spectrosc. Rad. Transf. 20, 353 (1978) The importance of photoexcitation to the ionization dynamics of laser- produced carbon plasmas
[I$lC5; 11S-21P,23S,23P,31P,33D,41P, C VIls-2s,2p,3s,3p,3d,4s,4p
78 T10 P.L. Dufton, K.A. Berrington, Astrophys. 62-, 111 (1978)
P.G. Burke and A.E. Kingston, Astron.
The interpretation of C III and 0 V emission line ratios in the Sun
[RMi Ttfa;s;lti;n3s] among 2s2 ‘s,2s2p3P,lP,2p2 l~,ls, rates for . .
78 Tll J. Franc0 and E. Daltabuit, Rev. Mexic. Astron. Astrof. 2, 325 (1978) On collisional ionization rate coefficients
[empirical formula for rate coefficient]
78 T12 R.H. Garstang, W.D. Robb and S.P. Rountree, Astrophys. J. 222, 384 (1978) Electron collisional excitation cross sections for Fe III and Fe VI and iron abundances in gaseous nebulae
[CC, average collision strengths over transitions among 5 lowest
multiplets of 3db and 6 lowest multiplets of 3d3]
78 T13 L.B. Golden and D.H. Sampson, Astrophys. J. Suppl. 38, 19 (1978) Scaled Coulomb-Born-Oppenheimer collision strengths-for hydrogen ions in the limits z =-
ic
[CBO, ls-25,2p; ls,2s,2p-ns,np,nd (n= 3,4,5), Xm l-41
78 T14 L.B. Golden, D.H. Sampson and K. Omidvar, J. Phys. Bll, 3235 (19 Ionization from the 3s sub-level of highly charged ions
[empirical formula, ionization from 3s]
781
78 T15 Y. Hahn, Phys. Rev. As, 1028 (1978) Distorted-wave theory of electron-ion collisions. II. Auger ionization and excitation fluorescence
[DW, 100 - 6400 Ry]
78 T16 M.A. Hayes and M.J. Seaton, J. Phys. BG, L79 (1979) Resonances in ls-2s and ls-2p collision strengths for electron impact excitation of hydrogenic ions
[CC, ls-2s,2p, x=1.02 - 1.101 7% T17 R.J.W. Henry, W.-L. van Wyngaarden and J.J. Matese, Phys. Rev. A=,
798 (1978)
Excitation of Be* by electron impact [CC, 2s-2p, 27-870 eV]
78 T18 J.V. Kennedy, V.P. Myerscough and M.R.C. McDowell, J. Phys. BG, 1303 (1978)
Electron impact excitation of the resonance lines of Be+, Mg+ and Ca+ [DW (UDWPO), Be II 2s-2p 4-109 eV; Mg II 3s-3p 5-54 eV; Ca II 45-4~ 3-109 eV]
78 T19 Y.-K. Kim and K.T. Cheng, Phys. Rev. A=, 36 (1978) Bethe cross sections for the sodium isoelectronic sequence
[Bethe, excitation 3s-3p,4p Na-like (Mg-Th); ionization Fe WI]
78 T20 A. Kumar and B.N. Roy, Phys. Lett. 66A, 362 (1978) Electron impact ionization of posit=e ions
[BEA, 50 - 5000eV]
78 T35 H.E. Mason and A.K. Bhatia, Mon. Not. R. Astr. Sot. 184, 423 (1978) Theoretical intensity ratios for the UV lines of Mg m Si lX and SXI
[DWX, transitions among the statesof2s22p2 and 2s22p2 - 2s2p3,
2p4 10 - 30 Ry]
78 T21 C. Mitra and N.C. Sil, Phys. Rev. A=, 1758 (1978) Excitation of hydrogen-like ions by electron impact. Il.
[CBO, Z= 2,3,6,10,50 ls-2p X=1-10]
78 T22 D.L. Moores, J. Phys. Bs, L403 (1978) Electron impact ionization of Li-like and Be-like carbon and nitrogen ions
[CB, X = 1.25 - 6.01
78 T23 S. Nakazaki, J. Phys. Sot. Jpn. 45, 225 (1978) Evaluation of the radial integrals in the Coulomb-Born approximation
[CB, Z= 2,6,7,8,10,50 ls-25,2p X=1-30]
C V,VI Exe -
C IU, 0 V Exe -
Nq+q=l-6, Oq+q = l-7, Na II, Ca If Ion - Fe IlI,VI Exe -
H-like Exe -
Ion -
Fe M,W,XUII, MO W,W,XUU Ion -
CM,NeX Exe -
Be II Exe -
Be II, Mg II, Ca II Exe -
Na-like (Mg,AL, P,Ar,Fe,Kr,Mo, Xe ,W ,Au ,Th) Exe/Fe M Ion c, N Il,lU,o It,lU Ion -
Mg M, Si M, S x[ Exe -
H-like Exe -
C IlI,lV, N lV,V Ion -
H-like Exe -
250
Y. ITlKAWA et al. Electron Colhsions with Positive Ions
TABLE III. Themetical Papers !ke page 2 17 for Explanation of Tables
78 T24 S.D. Oh, J. Macek and E. Kelsey, Phys. Rev. A17, 873 (1978) Electron excitation of hydrogen-like ions in TTie Coulomb-Born appro- ximation
[CB, general formula given, example for He II ls-2s,2p X= l-401
78 T25 I.C. Percival and D. Richards, Mon. Not. R. Astron. Sot. 183, 329 (1978) Cross-sections and rates for electron excitation of excited positively-charged hydrogen and hydrogenic ions
[semiempirical formula, n-n’,n,n’ 2 51
78 T26 A.K. Pradhan, Mon. Not. R. Astron. Sot. 183, g9P (1978) Fine structure transitions by electron impact in singly-ionized sul- pher
[CC, 2D3/z - 2D5/2 a 2D - 4S,2P - 4S, rates (S-20) x 103K]
78 T27 D.H. Sampson and L.B. Golden, J. Phys. Bg, 541 (1978) Electron impact ionization results by the 2 =m method
[empirical formula for He, Li, Be-like ions, rates B Y Y= 0.77; C lV Y=O.27 - 2.33; C V Y=O.55; N V Y= 0.26 - 2.0; 0 V Y=1.23; 0 VI Y = 0.8 - 1.45; Ne W Y = 0.96; Ne WI Y = 0.951
78 T28 D.H. Sampson, A.D. Parks and R.E.H. Clark, Phys. Rev. A=, 1619 (1978) Intermediate-coupling collision strengths for fine-structure transi- tions between S and P levels and S and D levels in highly charged He-like ions
[scaled CBX, Z=14,26,42 ls2 - 152s,ls2p X-l-5.33; Z= 26,42 ls2 1~2s - lsns,lsnp,lsnd (n = 3,4,5), ls2p - lsns (n = 3,4,5) X = l-41
78 T29 C. Sinha and N.C. Sil, J. Phys. Bll, L333 (1978) Electron impact excitation of hydrogenic ions to arbitrary s states including exchange effects
[CBX, Is-ns (n=2,3,6,-), X=2]
78 T30 C. Sinha, N. Roy and N.C. Sil, J. Phys. Bg, 1807 (1978) Excitation of ground-state hydrogenic ions to an arbitrary s state
[CB, Z= 2,3,4,10,-, Is-ns (n= 2,3,4,5,6,7,8,9,10,-), X=1.5-6.0]
78 T31 B.K. Thomas, Phys. Rev. Ala, 452 (1978) Applications of the Coulo&-modified Glauber approximation to n= 2 and n= 3 excitation of hydorgen-like ions by incident electrons II
[Coulomb-Glauber, Z=2-5,7,10,-, ls-2s,2p,3s,3p,3d,(0.9-10)z2 RYI
78 T32 J.A. Tully, J. Phys. Bl& 2923 (1978)
Total cross sections for electron impact excitation of the 1’S +23s transition in He-like ions
[Coulomb-projected Born, X=1-10]
78 T33 W. van de Water, F.B. Kets, L.G.J. Boesten and H.G.M. Heideman, J. Phys. Bll, L465 (1978) Angularyomentum exchange between escaping electrons in the case of electron impact ionization of hydrogenic targets
[classical, threshold law]
78 T34 W. Williamson Jr., G. Foster and R. Kwong, Phys. Rev. A=, 1823 (1978) Glauber exchange amplitudes for the scattering of electrons from hy- drogen-like ions
[Coulomb-Glauber-Ochkur, ls-2s, 59-lOOOeV]
1979
79 Tl K.A. Berrington, P.G. Burke, P.L. Dufton, A.E. Kingston and A.L. Sinfailam, J. Phys. BE, L275 (1979) Electron collisional excitation of 0 V: effect of resonances converg- ing to the n= 3 thresholds
[RM, 2s2 lS- 2s2p3P,‘P,2-5.5 Ry]
79 T2 A.K. Bhatia, G.A. Doschek and U. Feldman, Astron. Astrophys. 76, 359 (1979)
New atomic data for 02+ [DW, transitions among 2s22p2,2s2p3,2p4 0.5-6.0 Ry]
79 T3 A.K. Bhatia, U. Feldman and G.A. Doschek, Astron. Astrophys. E, 22 (1979)
New atomic data for Si+6,S+a and Ar+” [DW, transitions among 2s2sp4 3P,1D,1S,2s2p5 3P,1P,2p6 IS]
79 T4 J. Callaway, R.J.W. Henry and A.P. Msezane, Phys. Rev. Ag, 1416 (1979)
H-like Exe -
H-like Exe -
S II Exe -
B Iv, C lV,V, N V 0 V, VI, Ne W,VIU Ion _
He-like Exe -
H-like Exe -
H-like Exe -
H-like Exe
Li II, Be III, B El, C V, NVI, 0 W Exe -
HeII,LilII Ion -
He II Exe -
OV Exe -
0 III Exe -
Si VII, S IX, Ar XI, Exe -
C Iv. Fe XV, MO XL,WLWJI Exe -
251 Atomk Data ad Nucbar Data Tables, Vd. 31, NO. 2, S3@tambar 1984
Y. ITIKAWA et al. Electron Collisions with Positive Ions
TABLE III. Theoretical Papers !3ee page 2 17 for Explanation of Tables
79 T5
79 T6
79 T7
79 T8
79 T9
79 TlO
79 Tll
79 T12
79 T13
79 T14
79 T15
79 T16
79 T17
79 T18
79 T19
79 T20
Excitation of ions of the lithium isoelectronic sequence in the rela- tivistic Coulomb-Born approximation
[CBS ls-2~1,~,2~~,2,C lV: 1-16 Ry, Fe %lV: 4-50 Ry, MO XL: 8-160 Ry, W LXUI: 16-1500 Ry]
R.D. Cowan and J.B. Mann, Astrophys. J. 232, 940 (1979) Contribution of autoionization to total ionization rates
[effect of AI estimated, 0.1-2 keV] A.K. Das, N. Maiti and N.C. Sil, Phys. Rev. AZ, 639 (1979) 2l.5 states of the helium isoelectronic sequence
[CB, 1%2% X=1-3] K.P. Dere, H.E. Mason, K.G. Widing and A.K. Bhatia, Astrophys. J. Suppl. 40, 341 (1979) XUV electron density diagnostics for solar flares ̂ ̂ w
[DW, Ar XIII, Ca W transitions among 2s‘2pL,2s2p3,15-45 Ry; Ar XlV, Ca WI transitions among 2s22p,2s2p2 ,lO-80 Ry]
P.S. Ganas, J. Chem. Phys. 11, 4169 (1979) Electron-impact excitation cross sections for N III
[Born, 2p-3s,p,d,4s,p,d,5s,d Th-lOOOeV] P.S. Ganas, Phys. Lett. 74A, 307 (1979) Electron-impact excitation cross sections for 0 lV
[Born, 2p-3s,p,d,4s,d,5s,d Th-lOOOeV] P.S. Ganas and A.E.S. Green, Phys. Rev. A19, 2197 (1979) Electron-impact excitation of the beryllium isoelectronic sequence
[Born, B II 2s-2p,... ,4d, C III 2s-2p, . . . ,5d, N lV 2s-2p,... , 5p, 0 V 2s-Zp, ... ,5d, Th-lOOOeV]
K. Giles, Mon. Not. R. Astr. Sot. 187, 49P (1979) Collision strengths for [Ne V]
[CC, rates calculated from 79T12, transitions among 2p 2 3P , lD,%,(S-20) x103K]
K. Giles, A.R.G. Jackson and A.K. Pradhan, J. Phys. Bc, 3::" (1979) Electron impact excitation of Ne 4+ and energy levels of Ne
[CC, transitions among 2s22p2 3P,lD,1S, Th-0.5 Ry] M.A. Hayes, Mon. Not. R. Astron. Sot. 189, 55P (1979) Calculation of oscillator strengths andlectron impact excitation collision strengths for Fe m
[DW, 2s-2p 4-376 Ry; 2~1,~ - 2~~,~, 2s,2p-3s,3p,3d 87-336 Ry]
R.J.W. Henry, J. Phys. BG, L309 (1979) Cross sections for inner-shell excitation of C3+, N4+ and 05+ ions
[CC, ls'2s-ls2s",ls2s2p,C N: 25-90 Ry, N V: 34-100 Ry, 0 VI: 45-125 Ry]
A. Kumar and B.N. Roy, J. Phys. B12, 3979 (1979) Electron impact ionization of alkxi metal ions
[BEA, Li II: lOO-5000eV, Na II: 60-5000eV. K II: lOO-SOOOeV, Rb II: lOO-2000eV, Cs II: lOO-2000eV]
H.E. Mason. G.A. Doschek, II. Feldman and A.K. Bhatia, Astron. Astro- phys. 73, 74 (1979) Fe XU as an electron density diagnostics in solar flares
[DW, transitions among 2s22p2,2s2p3,2s22p3s,2s22p3d, 20-150 Ry] E.J. McGuire, Phys. Rev. A%, 445 (1979) Scaled electron ionization cross sections in the Born approximation for atoms with 551 Z 5102
[semiempirical based on Born, ionization from 4s-f,5s-f,6s-d, examples for Cs II, Ba II, Tfi II Th-103 eV; Ni .9+ , Auq+
Th-104 eV] D.L. Moores, J. Phys. B12, 4171 (1979) The autoionization contiibution to the electron impact ionization cross sectionsofC+ and N 2+ at low energies
[AI contribution estimated, C II: 24-38 eV, N III: 47-80 eV] L.A. Morgan, J. Phys. Bz, L735 (1979) Electron impact excitation of the n= 2 states of He+
[CC, ls-25.2~ 3-3.25 Ry] H. Nussbaumer and P.J. Storey, Astron. Astrophys. 2, L5 (1979)
Fe WI Ion -
Li II, Be III, 0 VII Exe -
Ar XIII,XIV, Ca Y, WI Exe -
N III Exe -
0 E' Exe -
B D,C DI,N Iv, 0 V Exe -
Ne V Exe -
Ne V Exe
Fe XUV Exe -
C lV, N V, 0 VI Exe -
Li II, Na II, K II, Rb II, Cs II Ion -
Fe XU Exe -
Cs II, Ba II, Ta II, Niq+q=l-14, Auq+ q= 3-14 Ion -
CII,NIU Ion -
He II Exe -
N IU Exe
252
Y. ITKAWA et al. Electron Collisions with Positive ions
TABLE III. Theoretical Papers See page 2 17 for Explanation of Tabies
79 T21
79 T22
79 T23
79 T24
79 T25
79 T26
79 T27
79 T28
1980 a0 Tl
80 T2
80 T3
a0 ~4
80 T5
80 ~6
a0 T7
N III lines for solar diagnostics [DW, 2s22p2P,2p2 4P- 2s2p2,2p3,3 Ry]
M.S. Pindzola, A. Temkin and A.K. Bhatia, Phys. Rev. Ag, 72 (1979) Calculation of resonant effects in electron-impact excitation of pas- itive ions: Application to oxygen VII
[DW with resonance, llS-ZIP 574-640 eV] D.H. Sampson and L.B. Golden, J. Phys. B12 L785 (1979) Ionization cross sections for Li-like ions including excitation- autoionization contributions
[empirical formula including AI, examples for C B', 0 VI: X=1-25, N V: X=1-50]
D.H. Sampson, R.E.H. Clark and A.D. Parks, J. Phys. B12, 3257 (1979) Intermediate coupling collision strengths for inner-shal excitation of highly charged Li-like ions
[scaled CBX, 2=18,26,42,- ls22s-ls2s2,1s2p2,1s2s2p, X=1-5] S.N. Singh, S. Kumar and M.K. Srivastava, J. Phys. B12, 2351 (1979) Electron impact excitation of hydrogenic ions in a miiaified Coulomb- Glauber approximation
[Coulomb-Glauber, scaled cross section for any H-like ions, examples for He II ls-Zs,Zp 100-lOOOeV]
C. Sinha and N.C. Sil, J. Phys. B12, 1711 (1979) First-order Coulomb exchange approximation and electron impact exci- tation of ground-state hydrogenic ions to an arbitrary s state
[CBX, Is-ns (n= 2,3,6,-) X= l-41 W.L. van Wyngaarden,K. Bhadra and R.J.W. Henry, Phys. Rev. As, 1409 (1979) Excitation of helium-like ions by electron impact
[CC, 11S-21S,23S,z1p,23P,Li II: 5-23 Ry, C V: 23-110 Ry, 0 VII: 45-210 Ry, Si XIII: 138-684 Ry]
S.M. Younger, J. Quant. Spectrosc. Rad. Transf. 22-, 155 (1979) Collision strengths and Gaunt factors for highly ionized atoms of the copper isoelectronic sequence
[DW and CB, 4s2S-4p 'P, X= Z-201 S.M. Younger and W.L. Wiese, J. Quant. Spectrosc. Rad. Transf. E, 161 (1979) An assessment of the effective Gaunt factor approximation
[effective Gaunt factors derived for An= 0 transitions of alkali-like ions]
K.L. Baluja and J.G. Doyle, Phys. Lett. 77A, 153 (1980) Electron impact excitation of helium-likeions
[DW, Z= 3-6,&l%-2%,2lP, X=1.2-2.0] K.L. Baluja, P.G. Burke and A.E. Kingston, J. Phys. B13, 829 (1980) Electron impact excitation in semi-forbidden transitions in 0 ID
[~,32s22p2 3P-2s2p3 5s,zszp3 5s-2szp3 D, P 0.8-6 Ry, rate: (0.4-15) x104K]
K.L. Baluja, P.G. Burke and A.E. Kingston, J. Phys. Bz, L543 (1980) Electron impact excitation of 3s 2 ls-3s3p 3Po in Si III
[RM, Th-0.75 Ry, rate: (0.5-25) x104K] K.L. Baluja, P.G. Burke and A.E. Kingston, J. Phys. B13, 4675 (1980) Electron impact excitation of semi-forbidden transitions in Ne V
[RM, transitions among 2s22p2,2s2p3 5-6 Ry, rate: (0.5-15) x104K]
K. Bhadra and R.J.W. Henry, Astrophys. J. 240, 368 (1980) Oscillator strengths and collision strengthsfor S IV
[CC, 3s23p 'P-3s3p2 4P,2D,2P,2S,1.3-6 Ry] A.K. Bhatia and H.E. Mason, Astron. Astrophys. 83, 380 (1980) New atomic data for Fe +19
[DW, transitions among 2s22p3 4S,2D,2P,2s2p4 4P,2D,2S,2P 20-100 Ry]
A.K. Bhatia and H.E. Mason, Mon. Not. R. Astron. Sot. 190, 925 (1980) Theoretical atomic structure and electron scattering data for ions in the nitrogen isoelectronic sequence
0 VII Exe -
Li-like Ion -
Li-like Exe
H-like Exe
H-like Exe -
Li II, C V, 0 M, Si XIII Exe -
Ga III, Kr VIII, MO XlV,XeXUI Exe -
Exe -
He-like Exe -
0 DI Exe -
Si III Exe -
Ne V Exe
S IV Exe -
Fe )P( Exe -
Mg VI, Si WI, S X, Ar XII, Ca XIV Exe -
253
80 T42
80 T8
80 T9
80 TlO
80 Tll
80 T12
80 T13
80 T14
80 T15
80 T16
80 T17
80 T18
80 T19
80 T20
80 T21
Y. ITIKAWA et al. Electron Collisions with Positive Ions
TABLE III. Theoretical Papers See page 2 17 for Explanation of Tables
[DW, transitions among 2s22p3,2s2p4,2p5 1 A.K. Bhatia and S.O. Kastner, Sol. Phys. 65, The coronal spectra of Fe W and Ni IMI
[DW, 3s2 'S, 3s3p 3P,1P - 3s2, 3s3p, 3p2
A.K. Bhatia, U. Feldman and G.A. Doschek, J. (1980)
181 (1980)
3s3d 8-24 Ry]
Appl. Phys. 51, 1464
Atomic data and level populations of highly ionized Ti for tokamak plasmas
[DW, various transitions among 2sm2pn, 8-45 Ry]
A.K. Bhatia, G.A. Doschek and U. Feldman, Astron. Astrophys. 8&, 32 (1980) r) Atomic data for S FJ and solar observations of the 3s‘3p
2P-3s3p2 4 P multiplet [DW, 2-6 Ry]
M. Blaha and J. Davis, NRL Memo. Rept. 4245, Naval Research Laboratory (1980) Electron ionization cross sections in the distorted-wave approximation
[DWX, X=1.25 -10 for He II, LiII, Mg ll, X=2,4 for other ions]
L. Brundus, Rev. Roum, Phys. 25, 121 (1980) Calculation of electronic exczation cross sections of lithium and car- bon atoms
[Born, C II 2p-35, C III Zs-3p, C IV 2s-3p, 4-40 a.u.]
R.E.H. Clark, D.H. Sampson and A.D. Parks, Astrophys. J. Suppl. 44, 215 119801 Intermediate coupling collision strengths for An= 0 transitions pro- duced by electron impact on highly charged ions. III. Transitions
within the ls22s2p and ls22p2 configurations and between the 1s' 2s2
and ls22p2 configurations in beryllium-like ions
[scaled CBX, Z. =14-74, Th-(Th+ 3.25Z2) Ry]
R.D. Cowan, J. Phys. BE, 1471 (1980) Resonant-scattering (autoionization) contributions to excitation rates
in 0 4+ and similar ions
[resonance contributions estimated, 2s 2 l.5 - 2s2p3P, rate: lo-50 evl
P.L. Dufton and A.E. Kingston, J. Phys. 813, 4277 (1980) 20 4
Electron impact excitation of the P - Pe transition in S N [RM, Th-1.4 Ry, rate: logT=4.3-5.31
U. Feldman, G.A. Doschek, C.-C. Cheng and A.K. Bhatia, J. ApPl. Phys. SJ, 190 (1980) Spectroscopy and atomic physics of highly ionized Cr, Fe, and Ni for tokamak plasmas
[DW, transitions among 2s2,2s2p,2p2,15-45 Ry]
P.S. Ganas, Astron. Astrophys. Suppl. 40, 259 (1980) Electron impact excitation cross sections for 0 III
[Born, 2p-3s,p,d,4s,p,d,5s,dl P.S. Ganas, J. Chem. Phys. 72, 2197 (1980) Electron-impact excitation cross sections for N II
[Born, 2p-3s,p,d,4s,p,d,Ss,d,Th-lOOOeV]
P.S. Ganas, J. Quant. Spectrosc. Rad. Transf. 23, 441 (1980) Electron impact excitation cross section for N7V)
[Born, 2s-2p,3s,p,d,4s,p,d,Ss,p,d,Th-lOOOeV]
P.S. Ganas and A.E.S. Green, J. Chem. Phys. 73, 3891 (1980) Electron impact excitation of the neon isoelectronic sequence
[Born, Z=lO-20,2p-3s,Th-SOOOeV]
S.J. Goett, R.E.H. Clark and D.H. Sampson, Atomic Data Nucl. Data Tables 25, 185 (1980) Intermemate coupling collision strengths for An= 0 transitions pro- duced by electron impact on highly charged He- and Be-like ions .9 *
[He-like 152t-ls2K’. Be-like transitions among 2s‘,2s2p,2pL, 2 = 6-74, analytical fit to the results mostly obtained in 80T12, 80T32 and 8OT33]
L.B. Golden and D.H. Sampson, J. Phys. BE, 2645 (1980) Ionization from the 3s,4p,4d and 4f sublevels of highly charged ions
[empirical formula]
Fe W, Ni &II Exe
Tiq+ q= 13-19 Exe -
S IV Exe -
He II, Li IJ, C II, lV, N II, 0 II, Ne II, Na II, Mg II, K II Ion - C lI,llI,A’ Exe
Be-like Exe -
0 V Exe -
S EJ Exe -
Cr #I, Fe %IU, Ni X6' Exe -
0 El Exe --
N II Exe -
N V Exe -
Ne-like Exe
He-like,Be-like Exe -
Ion -
254 Akxnk Data and Nudaar Data T.sblaa. Vol. 31, No. 2. %PMtnbU 1964
Y. ITIKAWA et al. Electron Collisions with Positive Ions
TABLE III. Theoretical Papers !3ee page 2 17 for Explanation of Tables
80 T22 Y. Hahn, Phys. Lett. 78A, 57 (1980) OVI Ion - Auger contributions toelectron impact ionization of Li-like ions
[DW, 1.2-3.3 keV] 80 T23 M.A. Hayes, J. Phys. Bg, 819 (1980)
A perturbative treatment of exchange in close-coupling formalism for electron impact excitation of ions
[approximate treatment of exchange terms in CC formalism, ap- plications to N V 2s.2p,3s,p,d at 6 Ry, 0 lV 2sZ2p2P-252~ 2 4P at 3 Ry]
80 T24 J.A. Kunc, J. Phys. Bz, 587 (1980) Electron ionization cross sections of excited atoms and ions
[SC, He II Th-14 Ry, other ions 2-30 Ry] 80 T25 M. Malinovsky, J. Dubau and S. Sahal-Brechot, Astrophys. J. 235,
665 (1980) Population processes of 3p44s levels of Fe X
[DW (partly SC) 3s23ps 4s,4p,Ssl '
- (3s23p4) 3d,4s,4p,4d,Ss,Sp, (3~3~')
80 T26 H.E. Mason and P.J. Storey, Mon. Not. R. Astron. Sot. 191, 631 (1980) Atomic data for Fe Xw
[DW, transition among 2s22p,2s2p2] 80 T27 R. Mewe, J. Schrijver and J. Sylwester, Astron. Astrophys. Suppl. 40,
323 (1980) Analysis of X-ray line spectra from a transient plasma under solar flare conditions. II. Rate coefficients
[empirical formula, various transitions of Ca ‘WIII-XK, Fe %lV-XM and ionization of C-like through Ca-like ions]
80 T28 R. Mewe, J. Schrijver and J. Sylwester, Astron. Astrophys. 81, 55 (1980) Helium-like ion line intensities: Iv. Z-dependence of collision strengths for n= 2+n=l transitions in helium- and hydrogen-like
NV,ON Exe -
He II, Li III, C IV, NV, 0 VI, Ne VIII, X Ion - Fe X Exe -
Fe %3I Exe -
Caq+ q=l-19, Feq+ q=6-25 Exe/Ion --
H-like, He-like Exe -
ions - [empirical formula, He-like Is ' 'S - ZIS 3S 'P 3P H-like ls-2s , 9 , 9 , 2P]
80 T29 H. Nussbaumer and P.J. Storey, Astron. Astrophys. 89, 308 (1980) Atomic data for Fe II
Fe II Exe
[CC, transitions among 6D,4F,4D,4P,0.15-0.25 Ry] 80 T30 M.S. Pindzola and S.L. Carter, Phys. Rev. AC, 898 (1980)
Electron-impact excitation of Fe %V and Kr XxQi in the relativistic distorted-wave approximation
[DW, 11S-21P,3P 'P 3P Fe w. 7-10 keV, Kr MI: 13-15 keV] 2' 1' 0 .
Fe w, Kr w
80 T31 M.S. Pindzola, A.K. Bhatia and A. Temkin, Phys. Rev. Ag, 132 (1980) Electron-impact excitation of Li II in the distorted-wave approxi- mation
[DW, 11S-23P,62-180 eV]
Li II Exe
80 T32 D.H. Sampson and R.E.H. Clark, Astrophys. J. Suppl. 3, 169 (1980) He-like Exe Intermediate coupling collision strengths for An= 0 transitions
-
produced by electron impact on highly charged ions. I. Theoretical development and application to n= 2 levels in helium-like ions
[scaled CBX, Z=6-74, transitions among ls2s,ls2p, Th-(Th+ 3.25Z2) Ry]
80 T33 D.H. Sampson, R.E.H. Clark and L.B. Golden, Astrophys. J. Suppl. 44, Be-like Exe - 193 (1980) Intermediate coupling collision strengths for An= 0 transitions pro- duced by electron impact on highly charged ions. II. Transitions between states of the ls22s2 and ls22p2 configurations and those of the ls22s2p configuration in beryllium-like ions
[scaled CBX, Z=14-74, Th-(Th+ 3.25Z2) Ry] 80 T34 N.S. Scott and P.G. Burke, J. Phys. Bz, 4299 (1980) Fe XUlI Exe
Electron scattering by atoms and ions using the Breit-Pauli Hamilton- -
ian: an R-matrix approach
w, 2s 2 'S- 2s2p3P, 7-25 Ry] 80 T35 A. Tsuji, H. Kotegawa and H. Narumi, J. Phys. Sot. Jpn. 48, 2062
119801 sikonal approach to break-up processes of hydrogenic ions
[Coulomb-Glauber, X= l-81
He II Ion -
Exe -
255 Atomic Data and Nuclew Data Tat&s. Vol. 31, No. 2. SepMmba 1984
Y. ITIKAWA et al. Electron Collisions with Positive Ions
TABLE III. Theoretical Papers See page 2 I7 for Explanation of Tables
80 T36 J.A. Tully, J. Phys. BE, 3023 (1980) The Coulomb-Ochkur-Rudge approximation applied to excitation of trip- let levels in helium-like ions
[Coulomb-Ochkur-Rudge, Z= 2-8 llS-2 3 P X=1--; Li II ll.S-n3S 3P 8 , 3D (n=2-6) X=1-=]
80 T37 S.A. Wakid and J. Callaway, J. Phys. Bg, L605 (1980) Electron impact excitation of He'
[CC, ls-2s 40-102 eV] 80 T38 S.A. Wakid and J. Callaway, Phys. Lett. EA, 137 (1980)
Scattering of electorns from He+ targets for energies up to the n= 3 threshold
[CC, ls-2s,2p 3.08-3.24 Ry] 80 T39 S.M. Younger, J. Quant. Spectrosc. Rad. Transf. G, 489 (1980)
Electron impact excitation of the resonance transitions of highly ionized atoms of Be-, Mg-, and Zn-isoelectronic sequences
[DWX, ns2 ' S-nsnp'P n= 2 for 0 V, Ar W, Fe XWI, n=3 for Ar VII, Fe W, Kr l#, MO X%I, n=4 for As N, Kr W, MO XUI, Xe XV, X= 2-1001
80 T40 S.M. Younger, Electron-impact ionization cross sections for highly ionized hydrogen- and lithium-like atoms
[DW, X=1.125-2.25] 80 T41 S.M. Younger, Phys. Rev. AC, 1425 (1980)
Electron-impact-ionization cross sections for highly ionized helium- like atoms
[DW, X= 1.125-5.01
1981 81 Tl N. Abu-Salbi and J. Callaway, Phys. Rev. A24, 2372 (1981)
Electron-impact excitation of hydrogenic ions [CC, ls-2s,2p X=1.3-4.9]
81 T2 A. Allouche and F. Marinelli, J. Phys. BE, 2069 (1981) Polarization propagator study of the electron impact excitation of the beryllium ioseoectronic sequence
[Born, 2s2 'S-2s2p 'P SO-lOOOeV, 2s2 ' S-2s3p1P,2s4p1P lOO-lOOOeV] 81 T3 K.L. Baluja, P.G. Burke and A.E. Kingston, J. Phys. Bu, 119 (1981)
Electron impact excitation of transitions among states with configura- tions 2p2,2s2p3 and 2p 4 in 0 III
[RM, rate (0.5-2.5) x 104K]
81 T4 K.L. Baluja, P.G. Burke and A.E. Kingston, J. Phys. BE, 1333 (1981) Electron impact excitation of semi-forbidden and allowed transitions in Si DI
[RM, transitions among 3s' ,3s3p,3p2,3s3d,3s4s,3s4p, rate (0. S-25) x lo4 K]
81 T5 V.A. Bazylev and M.I. Chibisov, Opt. Spectrosc. 50, 457 (1981) Electron-impact excitation of dipole transitionsyith low excitation energies in multiply charged ions
[SC with dipole approximation, 2s-2p X= l-70 for C lV, l-11 for N V, l-10 for Ne VDI, l-6 for Ar MM, 0.5-2 keV for Fe l#W and MO XL; 3s-3pX =l, 16 for MO XlwI; 2s' 'S-2s2p 'P X=1-5 for 0 V and Ne VII]
81 T6 F. Bely-Dubau, J. Dubau, P. Faucher and L. Steeman-Clark, J. Phys. B14, 3313 (1981) Cxculations for the satellite spectra of helium-like oxygen
[DW, 0 VI ls22s-ls2s2p,ls2s2,1s22p-ls2p2,1s2s2p 101'g-2'5 Ry, rate (0.3 - 40) x 106K; 0 W ls2-ls2p'P rate (0.3 - 40) x 106K]
81 T7 K.A. Berrington, P.G. Burke, P.L. Dufton and A.E. Kingston, Atomic Data Nucl. Data Tables E, 1 (1981) Electron-impact-excitation collision strengths for Be-like ions I. Low-energy regions
[RM, transitions among 2s' 'S,2s2p3P,'P,2p 3P,1D,1S, Th-2.4 Ry for C DI, Th-4.2 Ry for 0 V, Th-8 Ry for Ne M, Th-15 Ry for Si XI]
81 T8 P.G. Burke, K.A. Berrington and C.V. Sukumar, J. Phys. Bg, 289 (1981) Electron-atom scattering at intermediate energies
He-like Exe -
He II Exe -
He II Exe -
0 V, Ar W,w, Fe W,XlIf, As lb’, Kr W,W, MO NTI,X&T, Xe XV Exe -
He II, Be II, C VI, 0 VI, Ne X, Mg X Ion - Li II, B lV, N VI, Na X Ion -
CvI,OwI Exe -
B II, C III, N B', 0 V Exe
0 III Exe -
Si ID Exe
C lV, N V, 0 V, Ne W,Vm, Ar %'I, Fe XIV, MO m,XL Exe -
0 VI,W Exe -
C IlI, 0 V, Ne W, Si XI Exe -
C IU Exe -
256
Y. ITIKAWA et al. Electron Collisions with Positive Ions
TABLE III. Theoretical Papers See page 2 17 for Explanation of Tables
[L ' integrable function method proposed, example for C IU 2s' 'S-252~ 3P Th-12 Ry]
81 T9 M.C. Chidichimo, J. Phys. BE, 4149 (1981) Electron impact excitation cross sections of Ca+ at low energies
[DW, 4s-4p,3d 0.24-6.93 Ry, 3d-4p 0.12-6.8 Ry] 81 TlO U. Feldman, G.A. Doschek and A.K. Bhatia, Astrophys. J. E, 799
(1981) Solar observations and atomic data for the 3s 2 'So - 3s3p 3Pl transi- tion in S V
[DW, transitions among 3s2,3s3p,3p2,3s3d,3-9 Ry] 81 Tll P.S. Ganas, Phys. Lett. 84A, 115 (1981)
Excitation of the oxygenqsoelectronic sequence by electron impact [Born, 2p-3s Th-5000eV]
82 T12 P.S. Ganas, J. Appl. Phys. 52, 6482 (1981) Electron impact excitation 3 the helium isoelectronic sequence _ -
[Born, Z = 3-12,11S-21P,Th-5 keV] 81 T13 P.S. Ganas and A.E.S. Green, J. Quant. Spectrosc. Rad. Transf. 2,
265 (1981) Secondary electron distributions, ionization cross sections and loss functions for 0(1)-O(V)
[Born, lOO-5OOOeV] 81 T35 K. Giles, Mon. Not. R. Astr. Sot. 195, 63P (1981)
Rate coefficients for fine structure transitions in [Ne lV] [CC, transitions among 2s22p3 4S,2D,2P rate: (0.6-2.0) x104K]
81 T14
81 T15
81 T16
81 T17
81 T18
81 T19
81 T20
81 T21
81 T22
L.B. Golden, R.E.H. Clark, S.J. Goett and D.H. Sampson, Astrophys. J. Suppl. 45, 603 (1981) Scaled collision strengths for hydrogenic ions
[CBX, Z=-, n-tn' (n=1,2,3 and n'=n+l,n+2), X=1-10] G.J. Hatton, N.F. Lane and J.C. Weisheit, J. Phys. B3, 4879 (1981) Inelastic electron-ion scattering in a dense plasma
[Born, ls-2s,2p,2s-2~, in a dense plasma] H. Jakubowicz and D.L. Moores, J. Phys. Be, 3733 (1981) Electron impact ionization of Li-like and Be-like ions
[CBX with distorted Coulomb waves (DCBX), X= 1-5, including AI] M. Klapisch, J. Oreg and A. Bar Shalom, J. Phys. BE, L325 (1981) Interpretation and relativistic extension of Bely's approximation for exchange in electron-ion collisions
[no data] J.A. Kunc, Int. J. Mass Spectrom. Ion Phys. 40, 43 (1981) Electron-impact ionization rates for excited atoms and ions
[applications of 80T24, rates of ionization from ls22s and ls23p] K.J. LaGattuta and Y. Hahn, Phys. Rev. Ag, 2273 (1981) Electron impact ionization of Fe 1st by resonant excitation double Auger ionization
[estimate of the effect of resonant excitation double Auger ioni- zation (e+ 2p63s+2p53s3pns+2p53s2 + e+ 2p6 + 2e), 726-lOOOeV]
C. Mendoza, J. Phys. Be, 2465 (1981) Electron impact excitation cross sections of Mg II calculated in a four-state close-coupling approximation
[CC, 3s-3d,4s.3p-3d,4s,4s-3d Th-(Th+0.25) Ry; rate for 3s-3p (5-12) x103K]
P.H. Norrington, J. Phys. BE, L261 (1981) Electron scattering from Ne II using the relativistic R-matrix method
[RM, 2p5 2S-2s2p6 2s 2.5-3.0 Ry] A.K. Pradhan, Phys. Rev. Lett. 47, 79 (1981) Effect of dielectronic recombinzion on electron-ion scattering cross sections
VW, estimate of the radiative decay of the resonance states, 11S-21S,3S for 0 W, 11S-23S for Fe w, near threshold]
81 T23 A.K. Pradhan, D.W. Norcross and D.G. Hummer, Phys. Rev. AZ, 619 (1981) Cross sections and excitation rates for electron collisions with helium-like ions
Ca II Exe -
S V Exe -
O-like Z= 8-13 Exe -
He-like Exe -
0 lI,IlI,IV,V Ion -
Ne N Exe -
H-like Exe -
H-like Exe -
C llI,N, N l!II,V, 0 V,VI, Ne W,wI, Fe XWI Ion - Exe -
CP,NV,OVI, Ne WI Ion -
Fe m Ion -
Mg JI Exe -
Ne II Exe
OW,Few Exe -
Be lII.CV,OVII, Fe w Exe -
257 AtcMc Data u-x3 Nudeg Data T&m Vet 31, No. 2. &@at!ba 18114
Y. ITIKAWA et al. Electron Collisions with Positive Ions
TABLE III. Thexmtical Papers See page 217 for Explanation of Tables
[DW with resonance, Be m 11.S-23s,23P 8.7-10.5 my,
C V 11S-23S 22-26 Ry, 0 W l?S-2lP 42-49 Ry,
rates: Be III 11S-23S,Fe XU l’S-Z1P,2’P-Z3S]
81 T24 A.K. Pradhan. D.W. Norcross and D.G. Hummer, Astrophys. J. 246, 1031 (19811
81 T25
81 T26
81 T27
81 T28
81 T29
81 T30
81 T31
81 T32
81 T33
81 T34
Rate coefficients for electron impact excitation of helium-like ions
[DW with resonance, transitions among 11S,21S,21P,23S,23P,
rates lo4 - 10gK]
D.H. Sampson and L.B. Golden, J. Phys. B14, 903 (1981) Ionization cross sections with the incluSion of excitation-autoioni- zation contributions for ions with five or fewer bound electrons
[empirical formula, example for 0 V X= l-201
D.H. Sampson, R.E.H. Clark and S.J. Goett, Phys. Rev. Ag, 2979 (1981) Intermediate-coupling collision strengths and line strengths for cer- tain transitions to n= 3 levels in highly charged Be-like ions
[scaled CBX, 2=14-54, 2s2-2s3p,2p2-2p3d, X=1-10]
S.S. Tayal and A.N. Tripathi, Phys. Rev. Ae, 2221 (1981) Electron-impact excitation of the lithium isoelectronic sequence
[Born, 2s-Zp,3s,3p,2p-3d, E/Z2=1-40 Ry]
J.A. Tully and K.L. Baluja, J. Phys. Bx, L831 (1981) Collisional excitation of the 0 III aurora1 line
[CB, 2p2 ‘D-2p2 ’ S, Th-(Th + 28) Ry]
W.L. van Wyngaarden and R.J.W. Henry, Astrophys. J. Oscillator strengths and collision strengths for S V
246, 1040 (1981)
[CC, 3s2 ls-3s3p 3P,1P,3s3d ‘D,3p2 3P,3s3d 3D,3s4s 3S;
3s3p 3P-3p2 3 P,3s3d 1D,3D,3s4s3S, 2-6.3 Ry]
S.A. Wakid and J. Callaway, Phys. Lett. fiA, 333 (1981)
Electron impact excitation of Fe25+ [CC, ls-2s,Zp,530-10140 Ry]
S.M. Younger, Phys. Rev. A23, 1138 (1981) Distorted-wave electron-impact-ionization cross sections for highly ionized neon-like atoms
[DW, X=1.125-3]
S.M. Younger, Phys. Rev. AZ, 1272 (1981) Cross sections and rates for direct electron-impact ionization of sodium-like ions
[DW, X=1.125-5, also for Z= m and extraporation to Fe WI]
S.M. Younger, Phys. Rev. Aa, 1278 (1981) Electron-impact-ionization cross sections and rates for highly ionized beryllium-like ions
[DW, X=1.125-5.0, also for Z=-]
S.M. Younger, J. Quant. Spectrosc. Rad. Transf. a, 329 (1981) Electron impact ionization cross sections and rates for highly ionized atoms
[empirical formula based on DW calculation]
1982
82 T16 K.M. Aggarwal, K.L. Baluja and J.A. Tully, Mon. Not. R. Astr. Sot. 201, 923 (1982) mctron collision strengths for the far-infrared lines of 0 IlI
[RM, 3Pj - 3P.,, 3
O-7.36 eV; rate (O-2)x 104K]
82 Tl F. Bely-Dubau, J. Dubau, P. Faucher and A.H. Gabriel, Mon. Not. R. Astr. Sot. 198, 239 (1982) Dielectronic-%atellite spectra for highly charged helium-like ions VI. Iron spectra with improved inner-shell and helium-like excitation rates
[DW, Fe XUV ls22s2S-ls2s2p2P,4P,ls2s2 ‘S,Fe w
ls2 1 s-ls2slS 3s ls2plP 3
82 T17 F. Bely-Dubau, J. Dibai
, P 500-5000 Ry]
P. Faucher, A.H. Gabriel, M. Loulergue, L. Steeman-Clark, S. Voionte, E. Antonucci and C.G. Rapley, Mon. Not. R. Astr. Sot. 201, 1155 (1982) Dielectronic satellite spectra for highly-charged helium-like ions VII. Calcium spectra - theory and comparison with SMM observations
Be DI, C V, 0 VII, Ne IX, Si XIII, Ca XD(,Fel%’ Exe -
Li-like, Be-like, B-like Ion -
Be-like Exe -
Be II, N V, Ne VIII Exe -
OllI Exe -
S V Exe -
Fe XU Exe -
Na II, Mg III, AK If, Ar M Ion -
Mg II, At III, P V, Ar VIII Ion -
C III, N lb’, 0 V. F VI,ArW Ion -
H-like, He-like, Li-like Ion -
0 III Exe -
Fe w,w Exe -
Ca %III,w( EXC -
258 Atomic Oeta and NW Data Teth~. Vol. 31. NO. 2, SWtmbM 1884
Y. ITIKAWA e.t al. Electron Collisions with Positive Ions
TABLE III. Theoretical Papm Sac page 2 I7 for Explanation of Tables
82 T18
82 T19
82 T20
82 T21
82 T2
82 T22
82 T23
82 T3
82 T4
82 T24
82 T25
82 TS
82 T26
82 T6
[DW, ls22a - ls211.zaf at 300-3000 Ry; Is2 - 1~2% at 10ze5 - 103*’ Ry]
K. Bhadra and R.J.W. Henry, Phys. Rev. A26, 1848 (1982) Effect of resonanceson2s-2p and Zz- 32 ‘excitation of Li-like ions by electron impact
[CC, transitions among Zs,Zp,3s,3p,3d, near threshold, resonance- enhancement-factor VS. ZJ
A.K. Bhatia, J. Appl. Phys. 53, 59 (1982) Atomic data and level populazons of highly ionized manganese
[DW, transitions among 2s22pk, 2s2pk+‘, 2pk+‘, 5-60 RY]
A.K. Bhatia and U. Feldman, J. Appl. Phys. 53, 4711 (1982) Spectroscopy and atomic physics of highly ionized krypton for tokamak plasmas
[DW, transitions among 2s22pk, 2s2pkt1, 2pk*‘, lo-150 RY]
M.C. Chidichimo, J. Phys. BE, i333 (1982)
Electron impact ionization of N including autoionization [CB. Th-4.1 Ry]
R.E.H. Clark, N.H. Magee, Jr., J.B. Mann and A.L. Merts, Astrophys. J. 254, 412 (1982) ColEional excitation rates of complex atomic ions by electron impact
[empirical fomula based on DW calculation, ls-2~,2p for H-like
Z= 2-42; ls2-ls2s1S,ls2p1P for He-like Z= 4-26; Zs.-2p,3s,3p,3d
for Li-like Z= 4-42; 2s2-2s2p1P,2s3s1S,2s3p1P,2s3d1D for
Be-like Z= 6-42; 2s22p-2~2~ ’ ‘D ‘S 2P 2s23s2S 2s23d2D for , , , '2 B-like Z=6-42; 35-3~ for Na-like 2=12-42; 3s -3s3p’P for
Mg-like Z =13-421
R.E.H. Clark, D.H. Sampson and S.J. Goett, Astrophys. J. Suppl. 49, 545 (1982) Scaled collision strengths for An 21 transitions involving n 25 in hydrogenic ions
[scaled CBX, nf. - n‘a’ n <n’ 55, X= l-151
P.L. Dufton, A. Hibbert, A.E. Kingston and G.A. Doschek, Astropys. J. 257, 338 (1982) S Iv emission-line ratio in the Sun
[RM, 3s23p ‘Pj - 3s3p2 4Pj,, rate for log Te = 4.0-5.61
D.C. Griffin, C. Bottcher and M.S. Pindzola, Phys. Rev. AC, 154 (1982) Contributions of excitation autoionization to the electron-impact
ionization of Mg+, AP. 2+ , and Si 3+
tion with exchange in the distorted-wave approxima-
[DW, Mg II: 25-70 eV, AP. ID: SO-110 eV, Si I!!: 70-150 eV]
D.C. Griffin, C. Bottcher and M.S. Pindzola, Phys. Rev. A=, 1374 (1982) Theoretical calculations of the contributions of excitation auto- ionization to elCtrOn-impact ionization in ions of the transition series of elements
[excitation AI estimateddby DW, Th-80 eV]
M.A. Hayes, Mon. Not. R. Astr. SOC. 200, 49P (1982) The 0 Iv 1401 1 multiplet -calculationof the electron impact exci- tation rate coefficients
[CC, 2s22p 2Pj - 2s2p2 4Pj, ) rate: (l-4) x 104K]
R.J.W. Henry and A.Z. Msezane, Phys. Rev. A26, 2545 (1982) Cross SeCtiOnS for inner-shell excitation ofNa-like ions
[CC, contribution of AI, 7-44 Ry]
E.J. McGuire, Phys. Rev. A25, 192 (1982) Electron ionization of some low-Z ions in the plane-wave Born appro- ximation
[Born including AI, Th-3000eV]
E.J. McGuire, Phys. Rev. As, 125 (1982)
Born-approximation electron ionization cross sections for Aan+ (0 5 n511) and some ions of the Na isoelectronic sequence
[Born, Th-10’ eV]
C. Mendoza, J. Phys. Bg, 867 (1982) Electron impact excitation of the forbidden transitions of S m and
C lV, 0 VI, Ne WI, Ar WI Exe -
Mn WII-m Exe -
Kr Xw-XVII Exe -
NIII Ion -
H-like, He-like, Li-like, Be-like, B-like, Na-like, Mg-like Exe -
H-like Exe
S Iv Exe -
Mg II, At JII, sj lV Ion -
Ti B’, Fe lV,V, Zr lV, Hf Y Ion -
0 IV Exe -
Si IV, Aa DI, Mg n Ion -
Cq+ q=l-3, Nq+ q = l-3, oq+ q= l-4, Fq+ q = l-5 Ion - Mg II, Aa II-W, Si IV, Ni XVIII, Zn Xx Ion -
S IIf Exe -
259 Atomk Data end Nucbar Data Tab&a. Vol. 31. No. 2. Sqatu-nbv 1934
Y. ITIKAWA et al. Electron Collisions with Positive Ions
TABLE III. Theoretical Papers See page 2 17 for Explanation of Tables
82 T7
82 T27
82 T28
82 T29
82 T30
82 T31
82 T8
82 T9
82 TlO
82 T32
calculated term structure of S II [CC, 3P-1D,1S,1D-lS, rate (S-20) x103K]
A.Z. Msezane and R.J.W. Henry, Phys. Rev. AZ, 692 (1982) Electron-impact excitation of Zn II. II
[CC 9 4s-4p 3dg4s2 , ,Ss 4d 3ps3d1'4s2 1-59 Ry] 9 > , S. Nakazaki and T. Hashino, J. Phys. Bg, 2295 (1982) Electron impact excitation of positive ions in the Coulomb-Born-Bely approximation: Calculation for helium-like ions
[CB-Bely, llS-ZIS,ZIP, Th-976 Ry] S. Nakazaki and T. Hashino, J. Phys. BE, 2767 (1982) Electron collisional excitation of beryllium-like ions: C2+, N3+, 0 4+
and Ne6+ [CB-Bely, 2s' lS-2sZp lP, 2s3p lP, 2s2p 3P-2p 2 3 P, 253s 3S, 2sZp lP-2p , 2 'D l.S, lo-3000eV]
H. Nussbaumer and P.J. Storey, Astron. Astrophys. 109, 271 (1982) The collision strength for the N III X1750 transition
[CC, 2s22p 2P-2s2p2 4P, rate: (0.4-6.0) x104K] H. Nussbaumer and P.J. Storey, Astron. Astrophys. 110, 295 (1982) [Ni II] emission under nebular conditions
[DW, transitions among 3dg, 3d84s, at Th.] H. Nussbaumer and P.J. Storey, Astron. Astrophys. 113, 21 (1982) Forbidden emission lines of Fe VII
[DW, transitions among 3d ' 3F,1D,3P,1G,1S, 0.7-2.8 Ry] D.H. Oza, J. Callaway and N. Abu-Salbi, Phys. Rev. A25, 2812 (1982) Electron-impact excitation of hydrogen-like argon ions
[CC, IS-zs,zp, X=1.05-20] J.M. Peek and J.B. Mann, Phys. Rev. A=, 749 (1982) Cross sections for inelastic electron-ion scattering in weak-coupling approximation
[DW (partly CBX), He II ls-2s X=1-40; C III Z1S-21P X= l-50; C lV 2s-2p,3p,3d X=1-180; C V llS-2lP X=1-20, llS-ZIS X=1-40; Ne VI5 2s-2p X=1-11; Fe %lV Zs-2p,3s,3p,3d X=1-320]
M.S. Pindzola, D.C. Griffin and C. Bottcher, Phys. Rev. Ag, 211 (1982) Electron-impact excitation autoionization of Ga II
[DW, Th-40 eV] A. Roy, K. Roy and N.C. Sil, J. Phys. Be, 1289 (1982) Triple differential cross sections for electron impact ionization of He+
[CB, DCS] 82 Tll H.P. Saha and E. Trefftz, J. Phys. BG, 1089 (1982)
Electron impact excitations of Si X [CC and DW, transitions among 2s22p,2s2p2,2p3, 6-70 Ry]
82 T12 D.H. Sampson, J. Phys. Bs, 2087 (1982) Ionization of Na-like ions including excitation-autoionization
[scaled CBX including AI, rate kT/I(3s)= 0.2-3.0)
82 T35 K.V. Varsimashvili and A.D. Gurchumeliya, J. Phys. BE, 4453 (1982) S-matrix approach to the problem of electron scattering on atoms and ions
[relativistic Born, Is - 2s k=S-100 a.u.1 82 T36 K.G. Widing, J.G. Doyle, P.L. Dufton and A.E. Kingston, Astrophys. J.
257, 913 (1982) Electron density diagnostic line ratios from the n= 3 lines of o V
[W, 2s 2 %-2s3s,Zs3p,2s3d, 252~ 3P-2s3s,2s3p,2s3d, rate: log Te = 4.9-5.71
02 T13 S.M. Younger, Phys. Rev. Ag, 3396 (1982) Electron-impact-ionization cross sections for highly ionized chlorine- like ions
[DWX, X=1.25-5.0] 82 T14 S.M. Younger, J. Quant. Spectrosc. Rad. Transf. 27-, 541 (1982)
Electron impact ionization rate coefficients and cross sections for
Zn II Exe
He-like (Z- 3-10,14,20,26) Exe -
C III, N IV, 0 V, Ne VII Exe
N III Exe
Ni II Exe
Fe W Exe -
Ar WDI Exe -
He II, C III,lV,V, Ne WI, Fe XKN Exe -
Ga II Ion -
He II Ion
Si X Exe -
Ar VIII, Ca X, Ti W,Cr XlV,FeWI, Ni )MII, Zn lX, Ge M, Kr m, MO XXI Ion H-like(Z =5-50) Exe -
0 V Exe
Ar II, K III, SC V, Fe X Ion -
Feq+ q= 16-25
260
82 T37
82 T15
1983 83 Tl
83 T2
83 T3
83 T4
83 T5
83 T6
83 T7
83 T8
83 T9
Y. ITIKAWA et al. Electron Collisions with Positive Ions
TABLE III. Theoretical Papers See page 217 for Explanation of Tables
highly ionized iron [DW, X= 1.125-5.01
S.M. Younger, Phys. Rev. AZ, 3177 (1982) Distorted-wave electron-impact ionization cross sections for the argon isoelectronic sequence
[DW, 3p‘l and 3s-', X=1.25-5.0] V.P. Zhadanov, J. Phys. Bg, L297 (1982) Electron impact excitation of multiply charged ions via autoioniza- tion states with inner-shell vacnacy
[DW, 3s-4s,4d,4f through resonsance via inners-shell excited state of Fe Xy (2p53s3dnl), rate; T=lOO-500 eV]
K.M. Aggarwal, J. Phys. Bg, L59 (1983) Electron collision strengths for transit figuration of Si IX
[RM, transitions among 2p 2 3P,1D,1S 106K]
ons within the 1s22s22p2 con-
lo-20 Ry, rate: (0.3-2.5) x
te
K.M. Aggarwal, J. Phys. Bg, 2231 (1983) Electron impact excitation of forbidden transitions in Ca Xv
[PM, forbidden transitions among 2s22p2,2s2p3 ,2p4 l-28 Ry, ra (0.5-5.0) x104K]
K.M. Aggarwal, J. Phys. B16, 2405 (1983) Collision strengths for tE fine-structure trnasitions within the ls22s22p2 3 P ground state of Ne V
[f@f, 3Pj - 3P.,, 3
5-40 Ry, rate: (0.0025) x106K]
K.M. Aggarwal, Astrophys. J. Suppl. g, 387 (1983) Electron excitation rates among finre structure levels in 0 IU
[RM, transitions among 2s22p2,2s2p3,2p4 0.5-5.16 Ry, rate: (0.256.0)x104K]
K.M. Aggarwal and K.L. Baluja, J. Phys. BE, 107 (1983) Electron impact excitation of forbidden transitions in Si IX II ̂ _ .
[RM, transitions among 2s‘2p‘,2s2pS,2p4, rate: (0.5-25) x104K] N.R. Badnell, J. Phys. BE, 3263 (1983) Electron impact excitation of the n= 2 level in He+ and H at low energies
[Coulomb-Exchange-DW, ls-2s,2p Th-16 Ry] K.A. Berrington, A.E. Kingston and S.A. Salvini, J. Phys. B16, 2399 (1983) Angular distribution of electrons scattered by He'
[RM, ls-2s, 3.0-3.3 Ry, DCS] C. Bottcher, D.C. Griffin and M.S. Pindzola, J. Phys. Bs, L65 (1983) Excitation-autoionization of Ti3+, Zr3+ and Hf3+ in the distorted- wave approximation with exchange
[DW, AI, Th-55 eV] A. Burgess and M.C. Chidichimo, Mon. Not. R. Astr. Sot. 203, 1269 (1983) Electron impact ionization of complex ions
[semiempirical formula proposed taking into account the inner- shell-excitation AI]
83 TlO P.G. Burke, A.E. Kingston and A. Thompson, J. Phys. BE, L385 (1983) Electron impact ionization of Ca+
[effect of AI estimated with RM, Th-150 eV] 83 Tll J. Callaway, Phys. Lett. 96A, 83 (1983)
Collision strengths for tFie n= 2 excitation of hydrogenic ions [empirical formula for any X and Z, Is-2s,Zp]
based on several CC resluts,
83 T12 A. Chutjian. A.Z. Msezane and R.J.W. Henry, Phys. Rev. Lett. so, 1357 (1983) Angular distribution for electron excitation of the 42S+42P transi- tion in Zn II: Comparison of experiment and theory
[CC, 4s-4p, DCS for O0 -180" at 75 eV; 8°,100,140,200 at
Ion -
K II, Ca IIf, SC lV,V,VI, Fe M, Kr XIX Ion -
Fe m Exe -
Si M Exe -
Ca XV Exe -
Ne V Exe -
0 III Exe -
Si M EXC -
He II Exe
He II Exe -
Ti lV, Zr lV, Hf lV Ion -
Ion -
Ca II Ion -
H-like Exe
Zn II Exe -
261 Atomic Data and NUC&W Data Table+ Vol. 31, NO. 2. .Se@mb~ 1884
Y. ITIKAWA et al. Electron Collisions with Positive Ions
TABLE III. Theorekal Papers See page 2 17 for Explanation of Tables
a3 T13
a3 T14
a3 T15
a3 ~16
a3 T17
a3 Tla
a3 T19
a3 T20
a3 T21
a3 T22
83 T23
83 T24
a3 T25
83 T26
83 T27
15-100 eV]
R.E.H. Clark, A.L. Merts, J.B. Mann and L.A. Collins, Phys. Rev. A27, 1812 (1983) Quantum-defect and distorted-wave theory applied to the resonance contribution of inelastic electron scattering
[estimate of the resonance effect using QDT]
N.C. Deb, C. Sinha and N.C. Sil, Phys. Rev. AZ, 2447 (1983) Excitation of hydrogen-like ions from ground state to arbitrary p state by electron impact
[CBO and CB, 1s - 2p,3p,4p X= 1.5-3.5 (CBO); 1s - (2-5)~ X= 5-12 (CBI I
P.L. Dufton, A.E. Kingston and N.S Scott, J. Phys BE, 3053 (1983) Electron excitation of Ca X&I
[RM, transitions among 2s2 ,2s2p,2p2 lo-150 Ry, rate: logT=6.4- 7.21
U. Feldman, A.K. Bhatia and S. Suckewer, J. Appl. Phys. 54, 2188 (1983) Short wavelength laser calculations for electron pumping in neon- like krypton (Kr XB’II)
[DW, transitions among 2p6,2p53s,2p53p,2p53d 140 Ry]
P.S. Ganas and L.P. Gately,,J. Appl. Phys. 3, 2167 (1983)
Excitation of Be+ by electron impact [Born, 2s-(3,4)s,(3-7)p,(3,4)d, Th-5000eV]
S.J. Goett, D.H. Sampson and R.E.H. Clark, Atomic Data Nucl. Data Tables 28, 279 (1983) Intermediate-coupling collision strengths for transitions between doubly excited levels produced by electron impact on highly charged He-like ions
[scaled CBX, transitions among 2s 2,2s2P,2P21 M.A. Hayes, J. Phys. Bs, 285 (1983) Calculation of the rate coefficients for the electron impact excita- tion of the n = 2 terms of 0 IV
[CC, 2s22p ‘P, 2s2p2 4P - 2K211’, 3-5.6 Ry, rate: (1.0-22) x104K]
M.A. Hayes and H. Nussbaumer Astron. Astrophys. The 0 lV infrared and ultraviolet flux ratios as density diagnostics
124, 279 (1983) temperature and
[CC, 2s22p 2P - 2s2p2 4P rate: (l-4) x 104K]
Y.K. Ho and R.J.W. Henry, Astrophys. J. 264, 733 Oscillator strengths and collision stren-s for
[CC, 2p3 4S-2s2p4 4P,2p23s 4PforOlI, 2p2
for 0 III, analytical formulas ofnand rate
Y.K. Ho and R.J.W. Henry, Astrophys. J. 267, 886 Oscillator strengths and collision strengths for
(1983) 0 II and 0 III
3P-2s2p 3 3D,3P,3S
for Te <106K]
(1983) s II
[CC, 3s23p3 4s-3p4 4 P,4s 4P,3d 4P, analytical formula for Te <
106K]
A.E. Kingston and S.S. Tayal, J. Phys. BE. L53 (1983) Effective collision strengths for electron excitation of the
state of 0 VII to the 2’S and 2’P states
[RM, 11S-23S,23P, rate: lo4 -lO’K]
A.E. Kingston, A. Thompson, K.A. Berrington and P.L. Dufton, Ba, L207 (1983)
I
ground
J. Phys.
The electron excitation of Si-
[RM, 3s23p 2P-3s3p2 4P, 3s3p2 4P-3s3p2 ‘D, rate: lo3 -105K]
I.E. McCarthy and A.T. Stelbovics, Phys. Rev. A=, 1322 (1983) Ionization: Test of a continuum optical model for electron scatter- ing
[orthogonalized- BO with optical potential X=1-100]
S. Nakazaki, J. Phys. Sot. Jpn. 52-, 1555 (1983) Excitation of helium-like ions by electron impact in the first-order exchange Coulomb approximation
[FOEC (and CB,CBO). llS-2lS,2lP,23S,23P, x= l-51
B. Padhy, R. Srivastava and D.K. Rai, Phys. Rev. AZ, 1825 (1983)
OVI,SlV Exe -
He II Exe -
Ca WII Exe -
Kr m Exe -
Be II Exe -
He-like (Z = 6-74) Exe -
0 lV Exe -
0 lV Exe -
0 lI,IlI Exe -
S II Exe
O’dl Exe -
Si II Exe -
Li II, N II,IU.IV, V,VI Ion -
Li II, CV, OW, Si XIII Exe -
Li II Exe
262 Atomk Data and t&dear Data Tabtea. Vol. 31, No. 2. sepamba 1334
Y. ITIKAWA et al. Electron Collisions with Positive Ions
83 T28
83 T29
83 T30
83 T31
83 T32
83 T33
83 T34
83 T35
TABLE III. Themetical Papers See page 2 17 for Explanation of Tables
Double electron excitation in helium-like ions [CBO, ls2 - 2p2 3P 148-180 eV]
M.S. Pindzola, D.C. Griffin and C. Bottcher, J. Phys. BL(1, L355 (1983) Electron impact double-ionization of Xe II
[Xe+ + Xe 3+ , estimate of AI contribution. Th-160 eV] M.S. Pindzola, D.C. Griffin and C. Bottcher, Phys. Rev. Ae, 2331 (1983) Electron-impact excitation-autoionization in the cadmium isoelectronic sequence: A case of target term dependence in scattering theory
[estimate of AI contribution with DW] D.H. Sampson, S.J. Goett and R.E.H. Clark, Atomic Data Nucl. Data Tables 28, 299 (1983) Electron-impact collision strengths for inner-shell excitation of doubly excited levels from singly excited levels in He-like ions
[scaled CBX, ls2s,ls2p-2s2,2s2p,2p2] V.F. Shevelko, A.M. Urnov and sot. 203, 45P (1983) On electron impact ionization charged ions
tCBX, analytical formula C.S. Singh, R. Srivastava and 2lS excitation of helium-like
[Coulomb-Projected-Born, also DCS]
L.A. Vainshtein, Mon. Not. R. Astr.
cross-sections and rates for multiply
especially for high 21 D.K. Rai, Can. J. Phys. 61, 981 (1983) ions 1'S - 2lS for Z =3-8,14,20,26 X= l-5,
E. Trefftz, J. Phys. BE, 1247 (1983) Autoionization versus radiative decay of resonances in electron impact excitation cross sections
[estimate of the effect of radiative decay] H. van Regemorter, J. Phys. B3, L289 (1983) Effects of radiative decay on electron-ion cross sections below and above excitation threshold
[11S-21S,21P, estimate of the effect of radiative decay] S.M. Younger, J. Quant. Spectrosc. Rad. Transf. E, 61 (1983) Electron ionization rate coefficients for highly ionized iron and scandium
[DWX, X= 1.25-5.01
1982 (addenda1 82 T33 H.P. Saha and E. Trefftz 2. Naturforsch.
Electron collisional excitation of S XII e, 744 (1982)
[DW, transitions among 2s22p, 2s2p2, 2p3, 9-70 Ry] D.S. Soh, B.H. Cho and Y.-K. Kim, Phys. Rev. Ax, 1357 (1982) Relativistic Born cross sections for Li-like C and W ions
a2 T34
[Born (relativistic), Zs-2p,3s,3p,3d, Bethe parameters given]
Xe II Ion
In II, Sb lV, Xe W Ion -
He-like (Z=6-74) Exe --
(H-Ca)-like Ion -
He-like Exe
0 W, S XII Exe
0 Vn Exe -
SC W-X, Fe IX-Y Ion
S XII Exe -
ClV,WLxKII Exe
263 AtomicData and Nuclear OataTsble8.Vd.31. No.2,3q~embar19&4
Y. ITIKAWA et al. Electron Collisions with Positive Ions
TABLE IV. Index to Experimental Papers by Ion Species See page 217 for Explanation of Tables
The papers with an asterisk give data only on rate coefficients.
H-like (number of electrons N=l) Exe -
He II 66E2,67E1*,68E7',73E2,75El3,75El4, 82E7*
Ion - He II 61E1,62E1,67E5*,68E2,69E9,72E6,
81El BV 81E4* CVI 81E2*,81E4* NW 81E2' OVlKI 81E2* Ne X 81E2' Ar XVIII 81E2'
He-like (N=2) Exe -
Li II 78E4 cv 68E1*,68E4* OW 67E2*
Ion - Li II 66E4,67E6,67E7,68E6,69E6,69E7,69E9 BIV 76E1*,79E2,81E4* cv 69E10*,72E2*,79E2,81E2*,8lE4* NVI 72E2*,76E5*,79E2,81E2*,8lE4* OVII 69E10*,72E2*,81E2* FV.lII 72E2* Ne IX 72E2*,81E2 AT XVII 81E2*
Li-like (N = 3) Exe -
Be II 80E3 CN 77E6,77E7 NV 70E2*,71E5+,73E1,79E3 OVI 71E5* Ne VIII 66E3*,71E5*,71E6*,73E4*
Ion - Be II 83E3 CN 69E10*,71E4*,77E1,78El,79El,79E2,
81E2* NV 71E4*,72E4*,77E1,77E5*,78El,79El,
79E2,79E4*,81E2*,81E4*,83El* OVI 69E10f,71E4*,77E5*,79El,79E2,
79E4*,81E2*,81E4* FW 81E4' Ne VIII 66E3*,77E4*,81E2*,81E4' Ar XVI 81E2*
Be-like (N =4) Exe NIV 71E3*
ov 71E3* Ne VII 66E3*,71E3*,71E8*
Ion
BII 83E5 CIII 69E10*,77E3*,78E3*,78E6,8lE2*,83E5 NlV 76E5*,79E2,81E2*,83El*,83E5 ov 69E10*,71E4*,79E2,81E2*,83E5 Ne VII 66E3*,71E4*,77E4*,81EZ* Ar XV 81E2'
B-like (N =5) Exe
Ne VI 66E3* Ion CIl 69E10*,71E2,76E1*,77E3*,78E3*,8lE2*
NIII 69E1,71E2,78E4*,81EZ* ON 69E10*,79E2,81EZ* Ne VI 66E3*,67E5*,77E4*,81EZ* Ar XIV 81E2*
C-like (N =6) Exe -
Ne V 66E3* Si IX 71E3*
Ion - NII 63E2,69E5,72E4*,72E6,8lEZ* OIII 69E10*,71E1,77E3*,78E3*,8lEZ* Ne V 66E3*,67E5*,70E3*,81EZf Ar XIII 76E5*,76E3*,81EZ*
N-like (N = 7) Exe -
Ne lV 66E3* Ion -
011 69E10*,71E1,72E6,77E3*,78E3*,8OE2, 81E2*
Ne TV 66E3*,67E5*,70E3*,72E4*,8lE2*,83E6 Ar XII 76E3*,81E2*
O-like (N =8) Exe -
Ne III 66 E3* Ion -
Ne III 66E3*,67E5*,70E3*,72E4*,78E3*,8lE2* Ar Xl 76E5*,76E3*,81EZ*
F-like (N =9) Exe -
Ne II 66E3* Ion - Ne II 63E1,64E1,66E1*.66E3*,67E5*,7OE3*,
72E4*,78E3*,80E2,8lEZ* Ar X 76E3*,81EZ*
Ne-like (N =lO) Ion - Na II 66E5,68E5,77E8 Ar IX 76E3*,76E5*,81E2*
264
Y. ITIKAWA et al. Electron Collisions with Positive Ions
TABLE IV. Index to Experimental Papers by Ion Species See page 2 17 for Explanation of Tables
Na-like (N = 11) Exe -
Mg JI 75E8,75E12,76E6 AT WI 72El*
Ion
Mg JI 68E3,69E6,69E8,75E5,82El AL III 82El Si Iv 82El Ar WI 67E5*,72E1*,76E3*,81E2*
Mg-like (N=12) Ion - A.@. II 83ElO Ar W 67E5*,71E10*,76E3*,8lE2*
AR-like (N = 13) Ion Ar VI 67E5*,70E3*,71E10*,76E3*,76E5*,80E2,
81E2*
Si-like (N=14) Ion Ar V 67E5*,70E3*,71E10*,76E3*,79E2,8OE2,
81E2*
P-like (N=15) Ion - Ar lV 67E5*,70E3*,71E10*,72E4*,78E3*,8OEl,
80E2,83E6
S-like (N=16) Ion - Ar III 64E1,67E5*,70E3*,71ElO*,72E4*,78E3*,
80E1,80EZ
C&-like (N=17) Exe -
Ar II 72E5,73E9 Fe X 75E2*,83Ell*
Ion Ar II 64E1,66E1*,67E5*,70E3*,7lElO*,72E4*,
78E3*,78E5,80E1,80E2 Fe X 75E2*
Ar-like (N = 18) Exe -
KII 79E5 Fe IX 75E2*
Ion KU 66E5,68E5 Fe IX 75E2*
K-like (N= 19) Exe
Ca II 7lE7,73E8,74E5*.75E7,76E6 Fe WI 75E2*
Ion - Ca II 75E5,75E9 Ti lV 83E4
Fe WI 75E2*
Ca-like (N= 20) Ion - Ti IIS 81E3
h-like (N= 29) Exe -
Zn II 82E2,82E5,83E2 Ion
Zn II 82E3 Kr Wll 67E5*
h-like (N= 30) Exe
Ga II 82E4 Ion - Ga II 82E3 Kr VII 67E5* Xe XV 76E5*
Ga-like (N= 31) Ion
Kr VI 67E5*
Ge-like (N= 32) Ion -
Kr V 67E5*
As-like (N= 33) Ion - Kr lV 67E5*,83E6
Se-like (N= 34) Exe -
Kr JJI 74E4 Ion Kr III 64E1,67E5* Xe XI 76E5'
Br-like (N= 35) Exe
Kr II 73E9 Ion
y JI 64E1,64E2,65E1*,66E1*,67E5*
Kr-like (N= 36) Ion -
Rb II 75E9,78E2,80E4,81E5
Rb-like (N= 37) Exe -
Sr II 71Ell*,75E6,75E12,76E6 Ion -
Sr II 75E5,75E9 Zr lV 83E4
Sr-like (N= 38) Ion -
265 Atomk Data end Nudear Data teb4c.S. Vt4.31, NO. 2. sspkmba 1334
266 Y. ITIKAWA et al. Electron Collisions with Positive Ions
TABLE IV. Index to Experimental Papers by Ion Species See page 217 for Explanation of Tables
Zr III 81E3
Y-like (N = 39)
Ion -
Xe M 76E5*
Ru-like (N = 44)
Ion
Xe X 67E5’,76E5*
Rh-like (N = 45)
Ion - Xe X 67E5’
Pd-like (N = 46)
Ion -
Xe IX 67E5*
cs x 71E9*
Ag-like (N = 47)
Exe
XII 83E8,83E9
Ion
Xe VIII 67E5*
cs Ix 71E9’
Ba X 71E9*
Cd- like (N = 48)
Ion
Xe W 67E5*,83E7
cs WI 71E9’
Ba lX 71E9*
In-like (N = 49)
Ion - Xe W 67E5*
cs VII 71E9*
Ba VIU 71E9*
Fin-like (N = 50)
Ion
Xe V 67E5*
cs VI 71E9*
Ba VII 71E9*
Sb-like (N = 51)
Ion - Xe Iv 67E5*,83E6
cs v 71E9*
Ba VI 71E9*
Te-like (N = 52)
Ion - Xe Iii 64E1,67E5’
cs w 71E9*
Ba V 71E9*
I-like (N = 53)
Ion -
Xe II 64EZ,66E1*,67E5*,80EZ
cs III 71E9*
Ba lV 7lE9*
Xe-like (N = 54)
Ion -
cs II 67E3*,71E9*,75E9,75ElO,8OE4,82E6
Ba III 71E9”
Cs-like (N = 55)
Exe - Ba II 69E2,69E4,71Ell*,73E3,73E6,74El,
74E5*,76E6
Ion -
Ba II 68E6,69E3,71E9*,72E3,73E7,75E5
Hf n’ 8384
Tm-like (N = 69)
Ion -
Hf II 83E4
Yb-like (N = 70)
Ion -
Hf IU 81E3
Lu-like (N = 71)
Ion -
Hg X 68E8’
Hf-like (N = 72)
Ion -
Hg IX 68E8*
Ta-like (N = 73)
Ion -
Hg VJI 68E8*
W-like (N = 74)
Ion
Hg W 68E8*
Re-like (N = 75)
Ion -
Hg VI 68E8*
OS-like (N = 76)
Ion -
Hg V 68E8*
Ir-like (N = 77)
Ion
Hg no 68E8’
Pt-like (N = 78)
Ion -
Hg III 64E1,68E8*
Au-like (N = 79)
Exe -
Hg II 75E1,75E11,76E4
ion -
Hg n 64E1,64E2,68E8*
Hg-like (N = 80)
Ion
T!?. II 76E2
Y. ITIKAWA et al. Eiectron Collisions with Positive Ions
TABLE V. Index to Theoretical Papers by Ion Species See pp8e 217 for Explanation of Tables
H-like (number of electrons N=l) Exe 66T10,71T13,72T5,72T8,74Tl3,76T2, -
77T28.77T29.78T21.78T23.78T24. 78T25;78T29;78T30;79T24;79T25; 80T28,8lTl4,8lT23,82T2,82T22, 82T35,83Tll
He II 53T1,61T1,63T3,63T5,64Tl,64T2, 64T3,64T5,67T8,67Tll,69T4,7OT2, 7lT7,7lTl5,73T7,73T8,73Tl4,74T9, 74Tl8,75T7,75T8,75Tl2,75Tl3,75Tl8, 75T23,76T8,76T9,76TlO,76Tl7,77Tl, 77T12,77T17,78Tl,78T5,78T21j78T23, 78T24,79T29,78T30,78T31,78T34, 79Tl9,79T24,80T37,80T38,82T9, 83T6,83T7,83Tl4
Li III 63T3,63T5,71T7,76T10,77Tl2,78T21, 78T29,78T30,78T31
Be IV 63T3,63T5,73T14,77T1,78T30,78T31 BV 71T7,78T31 CM 61T3,75T9,76T9,76T10,77Tl,77Tl2,
77T17,78T9,78T16,78T21,78T23,8lTl NW
OWI
Ne X
Mg w A!Z XIII
Si WI SM Ar Mll
Ca Xx Mn W Fe )(wI Sn L 2 = 100 z=oa
75T9,76T9,78T23,78T31 73T14,75T24,76T9,77Tl,77Tl7, 78T23,SlTl 75T9,76T9,76T10,77Tl,77Tl2,77Tl7, 78Tl6,78T21,78T23,78T29,78T30, 78T31 75T9,76T9 74T10,77T28 76T9,77Tl,77T25 76T9 82T8 76T9,77Tl,SOT27 74Tl8,75Tl9 76T9,77Tl,SOT27,81T30 74Tl8,75Tl9,76Tl0,78T21,78T23 74T18,76T19 61T1,63T3,63T5,70T2,7lT7,7lT8, 71T15,72T11,73T14,75T13,78T13, 78T29,78T30,78T31,81Tl4
Ion 60T1,61T1,71T9,71T14,72T5,75T2, 77T9,81T34,83T31
He II
Li III CVI NW OVIU Ne X Ar W Fe WI Kr X&T
Xe IN
2=128 z=ca
61T1,63T2,65T1,65T5,66Tll,67T8, 67T9,67T10,69T14,69Tl6,7lTl5, 7lTl7,73T6,76Tl,77T23,78T2,78T33, 80T10,80T24,80T35,80T40,82T32 67T10,78T33,80T24 76T14,78T3,80T40 70T12,76T14,78Tll 7OT12,76T14,78Tll 74T12,76T14,80T24,80T40 74T12 82T14 73Tll 74T12 66Tll 71T15
Exe -
Li 11
Be Ill
BN cv
NVI OW
FWU Ne IX
Mg XJ Aa. W Si XDl
SY Ar WI Ca XM
Fe XV
Ni XMI Zn 13(0( Kr W MO W Sn XlX Z =6-74 Z=C.l
Ion Li II
Be III BlV cv NVI OW Ne M Na X Mg x.I Ail XII Ar m Fe X# Kr XW Xe Ull
72T8,74T13,78T28,80Tl,8OT20,8OT28, 80T32,80T36,81T12,82T2,82T27,83T18, 83T30.83T32 66T14,67T1,69T5,74T15,74Tl7,75T3, 75T24,77T3,77Tl7,78T8,78T32,79T6, 79T26,80T1,80T31,80T36,83T26,83T27 74Tl5,74Tl7,77T3,77Tl7,78T32,79T6, 80T1,80T36,81T23,81T24 77T3,77T17,78T32,80Tl,8OT36 61T3,67T1,76T9,76Tll,77T3,77Tl7, 78T9,78T32,79T26,80Tl,8OT36,8lT23, SlT24,82T9,83T26 76T9,76T11,77T3,77T17,78T32,8OT36 68T8,74T15,74T17,75T24,76T9,76Tll, 77T3,77Tl7,78T7,78T32,79T6,79TZl, 79T26,80T1,80T36,81T6,8lT22,8lT23, 81T24,83T23,83T26,83T33,83T34 77T3,77Tl7 76T9,76Tll,77T3,77Tl7,8lT24 76T9 74TlO 74T8,76T9,77T3,77Tl7,77T25,78T7. 78T28,79T26,8lT24,83T26 76T9 7617 74T8,76T9,77T3,77Tl7,78Tl7,8OT27, 8lT24,82Tl7 74T8,76T5,76T9,77T3,77Tl7,78T7, 78T28,80T27,80T30,81T22,81T23,81T24, 82Tl 76T9 78T7 78T7,80T30 78T7,78T28 78T7 SOT32 70T2,74Tl5,74Tl7 77T9,78T27,81T34,83T31
67TlO 75T4,78T27,80T41 76Tl4,78T27 70T12,76T14,78T11,80T41,83T25 70T12,7ST4,76T14,78Tll 74T12,75T4,76T14 SOT41 75T4 82T26 74Tl2,76T7 82T14 73Tll 74T12
Li-like (N= 3) Exe - 72T8,72Tl2,74Tl3,75Tl4,79T23,82T2
He-like (N= 2)
267 A,omic Data and Nudar Data Tables. Vol. 31, No. 2. S~tmber 1964
Y. ITIKAWA et al. Electron Collisions with Positive Ions
TABLE V. Index to Theoretical Papers by Ion Species See page 217 for Explanation of Tables
Be II
ClV
NV
OM
Ne VIII
Mg X AP. XI
Si XII sxw Ar %I Ca Wm Ti A Mnm Fe XXN
Ni ?WI MO # WLxlI z=ce
Ion - Be II BllI ClV
NV
OVI
FW Ne VIII
Mg X A!2 XI
Ar IM Fe XW KT mm Xe LII
63T1,66T1,66T5,66T15,69T3,7OTl, 72T12,74T16,77T13,78Tl7,78Tl8,8lT27, 83T17
66T1,66T5,66T8,66T15,69T3,7OTl, 70T6,70T7,71T5,74T4,74T6,74Tl6, 75T6,75T20,76T9,76T15,79Tl4,8OTl8, 80T23,81T5,71T27 62T2,62T4,63T1,63T8,65T2,69T3, 72T12,74T4,75T15,75T20,76T9,79Tl4, 81T6,82T18,83T13 66T1,66T5,66T15,70T1,72Tl2,74Tl6, 76T9,76T16,77T27,81TS,8lT27,82T9, 82T18 63T1,72T12,76T5,76T9 76T6 71T5,72T7,76T9,77T25 76T9 77T8,79T23,81T5,82T18 76T9,80T27,82T17 8OT8 82T19 76T9,79T4,79T13,79T21,8OT27,8lTS, 82T1,82T9 76T9 79T4,79T21,81T5 79T4,82T34 66T15,74T16,77T21,79T21 77T9,78T27,79T22,81T25,8lT34,83T31 67T10,71T10,80T40 67T10,71TlO 71T10,76T14,77T26,78T3,78T22,78T27, 79T22,80T10,80T24,81Tl6,8lTl8,82T5 70T12,71T10,76T14,77T26,78Tll, 78T22,78T27,79T22,80T24,8lTl6, 81T18,83T25 63T7,63T8,70T12,71T10,76Tl4,78T3, 78T11,78T27,79T22,80T22,8OT24, 80T40,81T16,81T18 71TlO 71T10,74T12,76T14,78T27,8OT24, 81T16,81T18 80T40 82T26 74T12 82T4 73Tll 74T12
Be-like (N= 4) Exe 74T13,80T12,80T20,80T33,8lT26, -
82T2 BII 68T3,70T16,74T1,79T10,8lT2 CIII 67T1,68T3,70T16,72T4,72Tl4,73T2,
73T4,74T1,76T9,77T2,77Tl8,78TlO, ~;7~~,80T11,81T2,81T7,8lT8,82T9.
NlV 68T3,70T16,73T9,74T1,74T4,75T9, 75T20,76T9,77T18,79TlO,8lT2,82T28
268
ov
FM Ne WI
Na MI
Mg IX AR X Si XI PW sxm c!L xiv Ar W KWI Ca WII Ti XlX Cr xa Mn XXII Fe XJllI Ni XW
65T2,67T2,68T3,70T16,73T4,74Tl, 74T4,75T9,75T10,75T20,75T24,76T9, 77T2,77T18,78T10,79Tl,79TlO,8OTl3, 80T39,81T2,81T5,81T7,82T3,82T28, 82136 68T3 68T3,70T16,75T9,76TS,76T9,77Tl8, 81T5,81T7,82T28 68T3 68T3,76T9 68T3 68T3,76T9,77T25,81T7 68T3 68T3,76T9 68T3 68T3,76T7,80T39 6813 68T3,76T9,83T15 80T8 80T15 82T19 76T5,80T15,80T34,80T39 76T5,76T9,80TlS
X=14-74 80T12,80T33 X=14-54 81T26 X=.CO 77T19
Ion - 77T9,78T27,81T25,83T31 Bll 67TlO CIU 67T10,76T14,78T21,81Tl6,8lT33,82TS NIV 70T12,76T14,78T11,78T22,8lTl6,
81T33,82T5,83T25 ov 61T2,63T7,70T12,76Tl4,78Tll,78T27,
82T13,81T16,81T25,81T33,82T5 FVI 81T33,82T5 Ne WI 74T12,76T14,78T27,81T16 All X 82T26 AT W 74T12,76T7,81T33 Fe XUII 78T15,81T16,82T14 Kr XWIII 73Tll Xe LI 74112 2zc.a 81T33
B-like (N= 5) Exe TII
82T2 55T3,68T3,69T2,69T15,72T6,73Tl5, 76T9,77T22,80Tll 58T1,68T3,69T2,69T15,73T5,73TlS, 74T4,75T20,76T9,79T8,79T23,82T29 65T2,68T3,69T2,69T15,74T4,7ST20, 75T21,76T9,79T9,80T23,82T3,82T24, 83T19,83T20 68T3,69T2,69TlS 68T3,69T2,69T15,76T5,76T9 68T3.75T23 68T3,75T9,76T5,76T9 68T3 68T3,69T2,75T22,76T4,76T9,77T25. 82Tll
NIII
FV Ne VI Na W
4s VIII All IX Si X
Alomk Oala art4 Nuclear Dala T&be. Vol. 31, ND. 2. SOptWMU 1284
Y. ITIKAWA et al. Electron Collisions with Positive Ions
TABLE V. Index to Theoretical Papers by Ion Species See page 2 17 for Explanation of Tables
PXI 68T3 SW 68T3,69T2,75T22,76T9,82T33,83T33 CL XIII 68T3 Ar XLV 68T3,69T2,79T7 KZd/ 68T3 Ca Xd 68T3,76T9,79T7 Ti %lII 80T8 Mn xK[ 82T19 Fe Xw 75T9,76T9,80T26 Ni XW 75T9,76T9
Ion 77T9,81T25,83T31 - CII 67T10,72T9,72T13,76T3,76Tl4,77T23,
78T20,79T18,80T10,82TS NJIU 67T10,70T12,72T9,72Tl3,76T3,76Tl4,
77T23,78T3,78T11,78T20,79Tl8,82TS, 82T21,83T25
ON 70T12,72T13,76T14,78T3,78Tll, 81T13,82T5
FV 82T5 Ne VI 74T12,76T14 AR IX 82T26 Ar XN 74T12 Fe XUI 82T14 Kr xlpm 73Tll Xe L 74T12
C-like (N= 6) Exe NII
OIII
FlV
Ne V
Na VI
Mg W A& VIII Si M
PX SXI CQ XII Ar XIII KXN Ca W
SC WI Ti WI Mn X Fe XU
53T2,55T1,58T1,66T13,68T3,68T5, 69T2,69T15,76T9,79T11,79Tl2,6OT4, 83T3 66T4,68T3,69T2 66T13,68T3,69T15,76T9,78T35 68T3 68T3,69T2,75T9,76T5,76T9,77T25, 78T35,83T1,83TS 66T4,68T3 66T13,68T3,75T9,76T9,78T35 68T3 66T4,68T3,69T2,79T7 66T4,68T3 66T4,68T3,69T2,75T9,75Tll,76T9, 79T7,83T2 68T3 80T8 82T19 75T9,76T5,76T9,79T16
Ni XQII Zn XW
Ion - NII
76T9 66113 77T9,83T31 67T9,67T10,69T9,69T16,7OTl2,7lTl7, 72T9,76T14,78T11,78T20,8OTlO,82T5, 83T25
OIII
FN 82T5 Ne V 74T12,76T14 AQ VIII 82T26 Si IX 67T14 Ar XIII 74T12,75T14 Ca Xd 80T27 Fe xx[ 78T3,80T27,82T14 Kr WI 73Tll Xe BXUX 74T12
N-like (N Exe -
Oil
= 7)
48T1,50T1,53T2,55T1,57Tl,58Tl, 67T7,69T2,69T7,69T10,69Tll,69Tl5, 69T17,73T9,74T4,75T20,76Tl3,76Tl8, 83T21
FIII 53T2,55T1,58T1,67T7,69T2,69Tll, 69T15
Ne N
Na V
Mg VI Si WI sx Ar XII Ca XIV Ti WI Mn XIX Fe Xx Ni XUI
Ion on
FIU Ne N AQ W Ar W Ca XW Fe Xx Kr XXK Xe XXVI0
53T2,55T1,58T1,67T7,68T5,69T2, 69T11,69T15,76T9,81T35 53T2,55T1,58T1,67T7,69T2,69Tll, 69T15 67T7,69T2,69T15,76T9,8OT7 75T9,76T9,77T25,80T7 69T2,75T9,76T9,80T7 67T2,69T2,80T7 69T2,75T9,76T9,80T7 80T8 82T19 75T9,76T5,80T6 75T9,76T9 77T9,83T31 67T10,70T12,72T9,76T3,76Tl4,77T23, 78T11,78T20,80T10,81Tl3,82T5 67T10,82T5 74Tl2,76Tl4,77T26 82T26 74T12,76T14 80T27 80T27,82T14 73Tll 74T12
O-like (N= 8) Exe 81Tll TII 53T2,55T1,58T1,67T7,68T3,69T2,
69T15 Ne IIL 53T2,55T1,58Tl,67T7,68T3,68TS,
69T2,69T15,74T11,76T9 Na N 53T2,55T1,58T1,67T7,68T5,69TZ.
269 Atomic Data and Nuclear Data T&b% Vol. 31, No. 2.3Wht’MU 1984
Y. ITIKAWA et al. Electron Collisions with Positive Ions
TABLE V. Index to Theoretical Papers by Ion Species See page 2 17 for Explanation of Tables
69115 Mg v 53T2,55T1,58T1,67T7,68T3,69T2,
69T15,76T9 Afi VI 67T7,68T3,69T2,69TlS Si VII 68T3,75T9,76T9,77T25,79T3 PWI 68T3 SM 68T3,75T9,76T9,79T3 cp. x 68T3 AT Xl 67T7,68T3,69T2,79T3 KW 68T3 Ca WI 68T3,69T2,75T9,75Tll,76T9 SC XIV 68T3 Ti W 68T3,69T2,80T8 VWI 68T3 Mn m 82T19 Fe XIX 70T15,75T9,76T5,76T9 Ni %I 75T9,7639
Ion 77T9,83T31 - Fll 67T10,82TS Ne ILI 67T10,74T12,76T14 AL VI 82T26 Ar XI 74T12,76T14 Ca WI 80T27 Fe XIX 80T27,82T14 Kr XUX 73Tll Xe X#X!U 74T12
F-like (N= 9) Exe
Ne II Na LU Mg N All V Si VI PW SWll cI1 lx Ar X KXI Ca XII SC ml Ti XN VW Cr %l Mn MI Fe %DI Ni XK Kr XWI
Ion Ne II
Na III All V Ar X
68T3,69T2,69T15,77T24,8lTZl 68T3,69T2,69TlS 68T3,69T2,69T15,76T9 68T3,69T2,69T15 68T3,69T2,69T15,75T9,76T9,77TZS 68T3 68T3,76T9 68T3 68T3,69T2 68T3 68T3,69T2,75T9,75Tll,76T9 68T3 68T3,69T2,80T8 68T3 6813 82T19 75T9.76T9 76T9 82T20 83T31 67T9,67T10,69T9,69T16,7lTl7,72T9, 74T12,76T14,80TlO 67T10,82T9 82T26 74T12,76T14
Ca XII 80T27 Fe m 80T27,82T14 Kr XWIJI 73Tll Xe %%!I 74T12
Ne-like (N=lO) Exe 80T19 - Mg III 76T9 Si V 76T9 SW 79T9 Ar IX 76T7,76T9 Ca XI 76T9 Fe %!lI 67T5,7lT5,75T9,76T5,76T9 Ni XIX 75T9,76T9 Kr Xwa 82T20,83T16 Z =lO-20 80T19
Ion 83331 - Na II 67T9,67T10,69T9,69T16,7lTl2,7lTl6,
71T17,72T9,77T23,78Tll,79Tl5,8OTlO, 81T31
Mg JJI 71T12,72T9,77T23,78T3,8lT31 All lV 81T31.82T26 Ar IX 74T12,76T7,76T14,81T31 Ca M 80T27 Fe %?l 77T26,80T27,82T14 Kr XWI 73Tll MO BXIII 78T15 Xe XW 74T12
Na-like (N=ll) Exe - Mg n
All Il.f Si N PV SVI Ar VIII Ca X Fe M
co NII Ni WIII cu XK Zn XK Kr XU MO XUC Xe XLlV w LXN Au LXIX Th LX#
Ion - Mg JI
All III Si lV
82T2 60T3,61T4,63T1,68T4,72T2,74T2,78Tl8, 78T19,81TZO 71T4,78T19 63T1,69T3,75TS 78T19 75T5,76T9 72T3,78T19 75T5,76T9,78T4 63Tl,65T2,65T3,69T3,7OT9,75T5,75T9, 76T9,78T4,78Tl9,82TlS 70T9 70T9,76T9 70T9 78T4 78T4,78T19,82T20 78T4,78Tl9,8lT5 78T19 78Tl9 78T19 78319 83T31
68T1,71T10,81T32,82T3,82T25,82T26 82T3,82T25,82T26
270 Atomic Data and Nuclear Data Tables, Vol. 31, NO. 2. EWtembW 1284
Y. ITIKAWA et al. Electron Collisions with Positive Ions
TABLE V. Index to Theoretical Papers by Ion Species See page 217 for Explanation of Tables
PV 68T1,71T10,81T32 Ar VIII 74T12,76T14,81T32,82T12 Ca X 68T1,71T10,80T27,82T12 Ti W 82T12 Cr XlV 82T12 Fe %I 66T12,67T13,68T1,68T7,7lTlO,78TlS,
78T19,79T5,80T27,81Tl9,82T12 Ni ZWIII 82T12,82T26 2n X 82T12,82T26 Ge MI 82T12 Kr WI 73T11,82T12 MO XUI 82T12 Xe XMV 74T12 2-a 81T32
Mg-like (N=12) Exe 82T2 -
A!?. II 68T3,75Tl Si l3I 68T3,80T3,81T4 PW 6813 sv 68T3,81TlO,ElT29 CL VI 68T3 Ar VII 68T3,76T7,80T39 KVlII 68T3 Ca IX 68T3,76T5,76T9 SC x 68T3 Ti Xl 68T3 VW 68T3 CT XII 68T3 Mn XW 68T3 Fe Y 65T2,68T2,68T3,7lT5,7lT6,75T9,76T5,
76T9,80T42 co M 68T3 Ni WI 68T3,76T9,80T42 Kr XW EOT39,82T20 MO XU 80739
Ion 83T31 - AL JI 82T26 Ar VII 74T12,76T7,76T14 Ca IX 80T27 SC x 83T35 Fe Y 66T12,67T13,68T7,78T3,8OT27,83T35 Kr XU 73Tll Xe SCUD 74Tl2
AL-like (N=13) Exe -
Si II 55T3,68T3,69T2,70T18,83T24, PIII 68T3,69T2,70T11,80T5,8OT9,8OTl4 slv 68T3,69T2,70T11,72T15,82T23,83T13 CL v 68T3,69T2,70Tll Ar M 68T3,69T2,70Tll KW 68T3,69T2,70Tll Ca VIII 68T3,70T11,76T9
SC lx 68T3 Ti X 68T3,69T2 VXI 68T3,70Tll Cr XI 68T3,70Tll Mn WI 68T3,70Tll Fe XlV 51T1,62Tl,62T3,67T12,68T3,69T2,69Tl3,
75T5 70T11,70T17,71T2,71T5,75T9,75Tll, 75T5,76T9
co If&J Ni ZQl Kr XUV
Ion - Ar VI Ca MI SC lx Fe XW
68T3 68T3,76T9 82T20 83731 74T12,76T14 80T27 83T35 51T1,59T1,63T6,67T13,68T7,69Tl,8OT27, 83T35
Kr %lV 73Tll Xe XKU 74T12
Si-like (N=14) Exe -GI
SIlI 66T4,67T7,68T3,69T2,7OT3,7OTll 64T4,66T2,66T4,67T7,68T3,69T2,7OTll, 82T6 64T4,66T2,66T4,67T7,68T3,69T2,7OTll 64T4,66T2,66T4,67T7,68T3,69T2,7OTll 67T7,68T3,69T2,70Tll 66T4,67T7,68T3,70Tll,76T9 68T3 68T3 66T4,67T7,68T3,70Tll 66T4,67T7,68T3,70Tll 66T4,67T7,68T3,70Tll
c!L Iv Ar V KVI Ca W SC MlI Ti M vx Cr XI Mn XII Fe XIII
co xiv Ni W cu XT
Ion - Ar V Ca VII SC WI Fe XUI Ni W Kr XWI Xe Xxw
6833 66T4,67T7,68T3,69T2,76T9 68T3 83T31 74T12,76T14 80T27 83T35 67Tl3,68T7,80T27,83T35 79T17 73Tll 74T12
P-like (N=15) Exe -
SlI 53T2,55T1,58T1,64T4,67T6,69T2,7OT3, 70T4,70T11,76T18,78T26,83T22
CL m 67T6,69T2,70T3,70T4,7OTll Ar N 67T6,69T2,70T3,7OT4,7OTll KV 67T6,69T2,70T4,70Tll Ca VI 67T6,69T2,70T4,70Tll,76T9
271 Atomic Data and Nuclear Data Tab&. Vol. 31. No. 2. Set&ember 1984
Y. ITIKAWA et al. Electron Collisions with Positive Ions
TABLE V. Index to Theoretical Papers by Ion Species See page 217 for Explan&ion of Tables
SC VII 69T2 VJX 67T6,70T4,70Tll Cr X 7OT4,70Tll Mn XI 70T4,70Tll Fe XII 67T6,69T2,70T4,70Tll,76T9,77T6 Ni W 69T2,7OT11,76T9
Ion 83T31 - Ar lV 74T12,77T10,77TZO Ca VI 80T27 SC VII 83T35 Fe XII 67T13,68T7,80T27,83T35 Ni W 79Tl7 Kr Xw 73Tll Xe Xi% 74T12
S-like (N = 16) Exe
c!L II 67T7,68T3,69T2,70T3,7OTll Ar ID 67T7,68T3,69T2,70Tll KnJ 67T7,68T3,69T2,70Tll Ca V 67T7,68T3,69T2,70Tll SC VI 68T3,69TZ Ti W 6813 VVIII 67T7,68T3,70Tll Cr M 67T7,68T3,70Tll Mn X 67T7,68T3,70Tll Fe XI 67T7,68T3,69T2,70Tll,7STll,76T5,
76T9 co XSI 68T3 Ni XIII 67T7,68T3,69T2,70Tll,76T9 cu xv 68T3 Zn Y 68T3,69T2 Ga %I 68T3
Ion 83T31 - Ar III 70T13,74T12 Ca V 80T27 SC VI 83T35 Fe XI 67T13,68T7,80T27,83T35 Ni XlIt 79T17 Kr XU 73Tll Xe UNIX 74T12
Cc-like (N=17) Exe
Ar II 68T3,69T2,70T11,73Tl KIJI 68T3,69T2,70Tll Ca lV 68T3,69T2,70Tll SC v 68T3,69T2 Ti VI 68T3,69T2 VW 68T3 Cr WI 68T3,70Tll Mn M 68T3,70Tll Fe X 68T3,69T2,70T11,70T15,75Tll,76T9,
80T25 co XI 68T3.70Tll
Ni XII cu xln Zn XlV Ga W Ge WI
Ion - Ar II KDI Ca lV SC v Fe X Ni W Kr Xx Xe X&III
68T3,6912,70T11,76T9 68T3 68T3,69T2 68T3 68T3 83T31 70T13,74T12,82T13 82T13 80T27 82T13,83T35 67T13,68T7,80T27,83T35 79T17 73Tll 74T12
Ar-like (N=18) Exe
Fe IX 76T5,76T9,77T7 Ni XI 7619
Ion 83T31 - KII 67T9,67T10,69T9,69T16,7lTl2,7lTl6,
71T17,76T3,79T15,80TlO,82T37 Ca III 80T27,82T37 SC Iv 82T37,83T35 VM 82T37 Fe M 67T13,68T7,77T10,77T26,78Tl5,8OT27,
82737,83T35 Ni XI 79T17 Kr w( 73T11,82T37 MO Xw 77T11,78T15 Xe XWlI 74T12
K-like (N=19) Exe -
Ca II
SC m vv Fe VIII Ni X
Ion - Ca II SC III Ti lb' Fe WI Ni X Kr &Ill Xe XWI
54T1,6OT2,60T3,61T5,65T4,66T6,68T4, 69T3,70T19,73T12,74T2,74T3,78Tl8, 81T9 70Tll 70Tll 66T9,69T3,76T9 76T9 83T31 69T8,77T23,78T11,80T27,83TlO 69T8 69T8,82T4,83T8 80T27 79T17 73Tll 74T12
Ca-like (N= 20) Exe -
Fe VII 70T15,82T31 Ion 83T31 -
SC II 69T8 Ti III 69T8
272 Atomic Data and Nudemr Data TtlblW Vd. 31. NO. 2. %n- 1984
Y. ITIKAWA etal. Electron Collisions with Positive Ions
TABLE V. Index to Theoretical Papers by Ion Species See page 217 for Explanation of Tables
VIY 69T8 Fe W aoT27
Ni IX 79T17 Kr m 73Tll Xe XW 74T12
SC-like (N= 21) Exe -
Fe M 78T12 Ion _ Ti II 69T8 VIII 69T8 Cr N 69T8 Ni WI 79T17 Kr M 73Tll Xe XUV 74T12
Ti-like (N= 22) Ion VII 69T8 Cr III 69T8 Fe V 82T4
Ni VII 79317 Mn IV 69T8 Kr Iw 73Tll Xe x#rm 74T12
V-like (N= 23) Ion Cr II 69T8 Mn III 69T8 Fe N 69T8,82T4 Ni VI 79T17 Kr XW 73Tll Xe XUI 74T12
Cr-like (N= 24) Exe
Fe III 78T12 Ion - Mn II 69T8 Fe III 6938 Co N 69T8 Ni V 79T17 Kr WI 73Tll Xe X%I 74T12
Mn-like (N= 25) Exe
Fe II 55T3,80T29 Ion -
Fe II 69T8 co III 69T8 Ni N 69T8,79T17 Kr XII 73Tll Xe XCt 74T12
Fe-like (N= 26) Ion - co II 69T8 Ni III 69T8,79T17 Cu N 69T8 Kr Xl 73Tll Xe XUX 74T12
Co-like (N= 27) Exe -
Ni II 82130 Ion -
Ni II 69T8,79T17 cu III 69T8 2n N 6918 Kr X 73Tll Xe XWIII 74T12
Ni-like (N= 28) Ion -
cu II 69T8 2n III 69T8 Ga N 6918 Kr IX 73Tll MO W 78T15 Xe MI 74T12
h-like (N= 29) Exe -
2n II 82T7,83T12 Ga III 79T27 Kr VIII 79T27 MO XN 79T27 Xe ??!A 79T27
Ion - Zn II 69T8,70T13 Ga IU 69T8 Kr WI 73Tll Xe WI 74T12
h-like (N= 30) Exe -
As N 80T39 Kr W 80T39 MO XIII 80T39 Xe ZW 80T39
Ion - Ga II 69T8,82TlO Kr VII 73Tll Xe XV 74T12
Ga-like (N= 31) Ion -
Kr VI 73Tll Xe XW 74T12
Ge-like (N= 32)
273 Atcmk Oata and Nuc.tear Data Tabkm. Vol. 31, NO. 2. FSecMmba 1984
274 Y. ITIKAWA et al. Electron Collisions with Positive Ions
TABLE V. Index to Theoretical Papers by Ion Species See page 2 17 for Explanation of Tables
Ion - Kr V 73Tll Xe XUU 74112
As-like (N= 33) Ion - Kr l'.' 73Tll Xe BJI 74T12
Se-like (N=34) Ion -
KT III 70T3,73Tll Xe XI 74T12
Br-like (N= 35) Ion -
Kr II 70T13,73Tll Xe X 74T12
Kr-like (N= 36) Ion -
Rb II 69T9,77T23,79TlS Xe XIX 74T12
Rb-like (N= 37) Exe -
Sr II 74T2 Ion - Sr II 70T13,77T23 Zr lV 82T4,83T8 Xe &III 74112
Sr-like (N= 38) Ion - Xe MI 74T12
Y-like (N= 39) Ion - Xe WI 74T12
Zr-like (N= 40) Ion -
Xe W 74T12
Nb-like (N = 41) Ion - Xe XC4 74112
MO-like (N= 42) Ion - Xe XIU 74312
Tc-like (N=43) Ion - Xe W 74T12
Ru-like (N= 44) Ion - Xe XI 74T12
Rh-like (N= 45) Ion - Xe X 74T12
Pd-like (N=46) Ion -
Ag n 70T13 Xe IX 74Tl2
Ag-like (N- 47) Ion - Cd II 70T13 Xe VIII 74312
Cd-like (N-48) Ion -
In II 83129 Sb lV 83T29 Xe W 74T12,83T29
In-like (N= 49) Ion -
Sn II 70T13 Xe VI 74T12
Sn-like (N= 50) Ion - Xe V 74Tlt
Sb-like (N= 51) Ion - Xe lV 74Tl2
Te-like (N= 52) Ion -
Xe III 70T13,74T12
I-like (N= 53) Ion -
Xe II 70T13,74Tl2,83T28
Xe-like (N= 54) Ion - cs II 69T9,77T23,79T15,79T17
Cs-like (N= 55) Exe -
Ba II 65T4,70T5,70T8,74T2,74T3,79T17 Ion - Ba II 70T13,71T1,77T23 Hf W 82T14
Tm-like (N=69) Ion - Hf N 83T8
Pt-like (N= 78) Ion - Hg III 70T13
Au-like (N= 79) Ion -
M II 70T13
Hg-like (N- 80) Ion -Gn 77T23,79Tl7
Others Ion -
Auq+ q = 3-14 79Tl7