References

Chapter 1

1.1 B.K. Vainshtein: Modern Crystallography I. Springer Ser. Solid-State Sci., Vol. 15 (Sprin­ger, Berlin, Heidelberg, New York 1981)

1.2 N.E. Kochin: Vektornoye ischisleniye i nachala tenzornogo ischisleniya (Vector Calculus and Elements of Tensor Calculus) (Nauka, Moscow 1965) (in Russian)

1.3 H.A. Jahn: Acta Crystallogr. 2, 30 (1949) 1.4 Y.1. Sirotin, M.P. Shaskol'skaya: Osnovy Kristallifiziki. (Nauka, Moscow 1979)/English

transl.: Fundamentals ofOystal Physics (Mir, Moscow 1982) 1.5 J.F. Nye: Physical Properties of Crystals (Clarendon Press, Oxford 1964) 1.6 A.V. Shubnikov: Izv. AN SSSR, Ser. fiz. 13, 347 (1949) 1. 7 I.S. Zheludev: Simmetriya i eyo prilozheniya (Symmetry and Its Applications)

(Atomizdat, Moscow 1976) (in Russian) 1.8 B.A. Tavger: SOy. Phys.-Crystallogr. 3, 341 (1958) 1.9 A.V. Shubnikow, E.E. Flint, G.B. Bokii: Osnovy kristallografii (Fundamentals of Crys­

tallography) (Izd-vo An SSSR, Moscow-Leningrad 1940) (in Russian) 1.10 A. V. Shubnikov: Izbrannyie trudy po kristallografii (Selected Works on Crystallography)

(Nauka, Moscow 1975) (in Russian) 1.11 S. Bhagavantam, T. Venkatarayudu: Theory of Groups and Its Application to Physical

Problems (Andhra Univ., Walt air 1951) 1.12 A.V. Shubnikow: Usp. Fiz. Nauk 59, 591 (1956) (in Russian) 1.13 I.S. Zheludev, L.A. Shuvalov: Kristallografiya 1, 681 (1956) (in Russian) 1.14 L.A. Shuvalov: Sov. Phys.-Crystallogr. 4, 371 (1959) 1.15 L.A. Shuvalov: J. Phys. Soc. Japan 28, Suppl., 38 (1970) 1.16 K. Aizu: J. Phys. Soc. Japan 27,387 (1969)

Chapter 2

2.1 J .F. Nye: Physical Properties of Crystals (Clarendon Press, Oxford 1957) 2.2 U. Wooster: Text Book of Crystal Physics (University Press Cambridge 1949) 2.3 L.D. Landau, E.M. Lifshitz: Electrodynamics of Continuous Media (Pergamon Press,

London 1960) 2.4 R. Keyes: Solid State Physics 20, 37 (1967) 2.5 B.K. Veinshtein, V.M. Fridkin, V.L. Indenbom: Modern Crystallography 1/, Springer

Ser. Solid-State Sci., vol. 21 (Springer, Berlin, Heidelberg 1983) 2.6 A. Schaefer, L. Bergman: Naturwiss. 22, 685 (1934) 2.7 I.M. Sil'vestrova, Yu.V. Pisarevsky: private comm. 2.8 M.J. Musgrave: Crystal Acoustics (San-Francisco, Holden-Day 1970) 2.9 W.C. Dash: Bull. Amer. Phys. Soc. 4, 47 (1959) 2.10 J.P. Hirth, J. Lothe: Theory of Dislocations (McGraw Hill, London 1968) 2.11 G.J. Taylor: Proc. Roy. Soc. A. 116, 16 (1927)

References 571

2.12 D.K. Bowen, V. Christian: Philos. Mag. 12, 36 (1965) 2.13 H:J. Van Bueren: Imperfections in Crystals (North-Holland, Amsterdam 1960) 2.14 V.L. Indenbom, A.A. Urusovskaya: SOy. Phys.-Crystallogr. 4, 84 (1960) 2.15 G.V. Berezhkova: Nitevidnye kristal/y (Whiskers) (Nauka, Moscow 1969) (in Russian) 2.16 R. Thyagaradzhan, A.A. Urusovskaya: SOY. Phys.-Solid State 7,64 (1965) 2.17 M. Classen-Nekludowa: Z. Phys. 55, 555 (1929) 2.18 M. V. Klassen-Neklyudova: Plasticheskiye svoistva i prochnost' kristaI/o v (Plastic Proper­

ties and Strength of Crystals) (Gostekhizdat, Leningrad-Moscow 1933) (in Russian) 2.19 A.L. Roitburd: "Sovremennoye sostoyanie teorii martensitnykh prevrashchenii" (Modern

State of the Theory of the Martensitic Transformations), in: Nesovershenstva kristal­licheskogo stroeniya i martensitnye prevrashcheniya (Imperfections in Crystal Structure and Martensitic Transformations) ed. by Yu.A. Osip'yan, R.1. Entin (Nauka, Moscow 1972, p. 7) (in Russian)

2.20 V.1. Al'shits, V.L. Indenbom: SOY. Phys.-Uspekhi 18, 1 (1975) 2.21 M.1. Kaganov, V.Ya. Kravchenko, V.D. Natsik: SOY. Phys.-Uspekhi 16, 878 (1974) 2.22 Ya.1. Frenkel', T.A. Kontorova: Zhurn. Eksper. i Teor. Fiziki 8,1340 (1938) (in Russian) 2.23 F.R.N. Nabarro: Adv. Phys. 1, 269 (1952) 2.24 F.C. Frank, W.T. Read: Phys. Rev. 79,722 (1950) 2.25 W.C. Dash: 1. Appl. Phys. 27, 138 (1956) 2.26 J.J. Gilman: Trans. AI ME 212, 783 (1958) 2.27 A.A. Predvoditelev: SOY. Phys.-Crystallogr. 7, 759 (1963) 2.28 A.A. Urusovskaya, G.F. Dobrzhanski, N.L. Sizova, V.G. Govorkov, YU.N. Martyshev:

Sov. Phys.-Crystallogr. 13, 899 (1969) 2.29 A.A. Urusovskaya: SOY. Phys.-Uspekhi 11, 631 (1969) 2.30 E.M. Savitski, G.S. Burkhanov: Monokristal/y tugoplavkikh i redkikh metal/ov i splavov

(Single Crystals of Refractory and Rare Metals and Alloys) (Nauka, Moscow 1972) (in Russian)

2.31 a) 1.W. Christian: Plastic Deformation of BCC Crystals, in: Proc. 2nd Intern. Conf. on Strength of Metals and Alloys (ASM, Cleveland, Ohio, 1970) b) K.R. Evans: Treatise Mater, Sci. Techn. 4, 113 (1974)

2.32 G.T. Horne, R.B. Roy, H.W. Paxton: J. Iron and Steel Inst. 201,161 (1963) 2.33 A.A. Urusovskaya, N.L. Sizova, I.A. Rachkov, Ya.A. Zakharin, V.M. Dobryak: Phys.

Status Solidi (a) 41, 443 (1977) 2.34 V.N. Rozhanski, A. Predvoditelev: Dokl. AN SSSR 158, 835 (1964) (in Russian) 2.35 J. Friedel: Les Dislocations (Gauthier-Villar, Paris 1956) 2.36 R.W. Whitworth: Adv. Phys. 24, 203 (1975) 2.37 A.W. Stepanow: Z. Phys. 81, 560 (1933) 2.38 P. Haasen: Nachr. Akad. Wiss. Gottingen, II. Math.-Phys. Klasse, 1970 N 6, S. 1 2.39 M.F.Ashbee: Acta Metallurg. 14, 679 (1966) 2.40 A.A. Shtolberg: Phys. Status Solidi (b) 43, 523 (1971) 2.41 E.K. Naimi: Izvestiya Vuzov, Ser. Fizika, N 3, 94 (1975) (in Russian) 2.42 A. Granato, K. LUcke: J. Appl. Phys. 27, 583; 798 (1956) 2.43 V.L. Indenbom, V.M. Chernov: Phys. Status Solidi (a) 14, 347 (1972) 2.44 M.M. Savin, V.M. Chernov: SOY. Phys.-Crystallogr. 21, 253 (1976) 2.45 V.M. Chernov, M.M. Savin: Phys. Status Solidi (a) 47, 45 (1978) 2.46 P.G. Bordoni: J. Aeoust. Soc. Amer. 26,495 (1954) 2.47 N.D. Zakharov, V.N. Rozhanski, P.L. Korchazhkina: SOY. Phys.-Solid State 16, 926(1975) 2.48 D.M. Barnett, W.D. Nix: Acta Metallurg. 21, 557 (1973) 2.49 Yu.Z. Estrin, A.A. Urusovskaya, G.G. Knab: SOY. Phys.-Crystallogr. 17, 141 (1972) 2.50 J.T. Michalak: Acta Metallurg. 13,213 (1965) 2.51 A. Evans, R. Rawlings: Phys. Status Solidi 34, 9 (1969) 2.52 A.H. Kottrell: Dislocations and Plastic Flow in Crystals (Oxford University Press, Fair

Lawn, New York 1953) 2.53 W. Frank: Phys. Status Solidi 29, 391; 767 (1968) 2.54 W.S. Gorsky: Phys. Z. Sow. (Sov. Physics) 6,77 (1934)

572 References

2.55 A.M. Kosevich: SOy. Phys.-Uspekhi 17, 920 (1975) 2.56 V.L. Indenbom, A.N. Orlov: Fiz. Metallov i Metallovedenie 43, 469 (1977) (in Russian) 2.57 H. Tertsch: Die Festigkeitserscheinungen der Kristalle (Springer-Verlag, Wien 1949) 2.58 E. Schmid, B. Boas: Plasticity of Crystals (Hughes, London 1950) 2.59 A. Pabst: Bull. Geo!. Soc. Amer. 66, 89 (1955) 2.60 A. Kelly, G.W. Groves: Crystallography and Crystal Defects (Longman, London 1970) 2.61 LV. Obreimov, V.1. Startsev: SOy. Phys.-JETP 35, 743 (1958) 2.62 V.1. Startsev, V.M. Kosevich, Yu.S. Tomenko: Kristallografiya 1, 429 (1956) (in Russian) 2.63 L.A. Thomas, W.A. Wooster: Proc. Roy. Soc. A 208, 43 (1951) 2.64 E.V. Tsinzerling: Iskusstt)ennoye dt>oinikot)aniye kt)artsa (Artificial Twinning of Quartz)

(Izd. AN SSSR, Moscow 1961) (in Russian) 2.65 R.D. Ba~ta, K.H.G. Ashbee: Philos. Mag. 22, 601; 625 (1970) 2.66 M. V. Klassen-Neklyudova, M.A. Chernysheva, A.A. Shternberg: Dok!. AN SSSR 63, 527

(1948) (in Russian) 2.67 M.A. Chernysheva: Dok!. AN SSSR 74,117 (1950) (in Russian) 2.68 M.A. Chernysheva: Dok!. AN SSSR 81, 1065 (1965) (in Russian) 2.69 M.V. Burkart, T.A. Read: J. Metals 197, 1516 (1953) 2.70 C.L. Pearson, W.T. Read, W.L. Feldman: Acta Metallurg. 5, 181 (1957) 2.71 A.F. Joffe, M.V. Kirpicheva, M.A. Levitskaya: Z. Phys. 22, 286 (1924) 2.72 J.E. Gordon: "Current Research on the Strength of Whiskers and Thin Films at Tube

Investment Laboratory", in: Growth and Perfection of Crystals, ed. by R.H. Doremus, B.W. Roberts, D. Turnbull (Wiley, New York 1958), p. 219

2.73 S.S. Brenner: Science 128,569 (1958) 2.74 Z. Gyulai: Z. Phys. 138, 317 (1954) 2.75 M.V. Klassen-Neklyudova: Techn. Phys. USSR 5,827 (1938) 2.76 S.N. Zhurkov: Phys. Z. Sow. 1, 123 (1932) 2.77 A.P. Aleksandrov, S.N. Zhurkov: Yat)leniye khrupkogo razryt>a (Brittle Rupture Phe­

nomenon) (Gostekhizdat, Moscow 1933) (in Russian) 2.78 W.B. HiIIig: J. App!. Phys. 32, 741 (1961) 2.79 N.V. Belov, M.V. Klassen- Neklyudova: Zhurn. Eksper. i Teore!. Fiz. 18,265 (1948) (in

Russian) 2.80 V.L. Indenbom, M.A. Chernysheva: Izv. AN SSSR, Ser. Fiz. 22, 1469 (1958) (in Russian) 2.81 R.L. Lyles, Jr., H.G.F. Wilsdorf: Acta Metallurg. 23, 269 (1975) 2.82 P.L. Raffo: J. Less-Common Metals 17, 133 (1969) 2.83 V.L. Indenbom, A.N. Orlov: "Sovremennye predstavleniya 0 podvizhnosti dislokatsii"

(Modern Conceptions of Dislocation Mobility) in: Dinamika dislokatsii (Dislocation Dynamics) (FTINT AN Ukr. SSR, Khar'kov 1968) (in Russian)

2.84 V.R. Regel, A.M. Leksovski, S.N. Sakiev: Fiz. Metallov i Metallovedeniye 40,812 (1975) (in Russian)

2.85 V.L. Indenbom, V.1. Nikitenko, B.M. Strunin: Priroda 4, 74 (1974) (in Russian) 2.86 V.L. Indenbom, A.N. Orlov: SOy. Phys.-Uspekhi 5, 272 (1962) 2.87 C. Zener: "The Micromecanism of Fricture", in: Fricturing of Metals (Amer. Ins!. of

Metals, Cleveland, Ohio 1948), p. 3 2.88 N.F. Mott: J. Phys. Soc. Japan 13, 650 (1955) 2.89 A. A. Griffith: Trans. Roy. Soc. A 221, 163 (1920) 2.90 M.Kh. B1ekherman, V.L. Indenbom: "Kriterii Griffitsa v mikroskopicheskoi teorii

treshchin" (Griffith Criterion in Microscopic Theory of Cracks), in: Uspekhi mekhaniki deformiruemykh sred (Progress in Mechanics of Deformed Media), ed. by G.S. Shapiro (Nauka, Moscow 1975), p. 74 (in Russian)

2.91 E. Orowan: Internal Stresses (Ins!. Metals, London 1948) 2.92 V.1. Likhtman, E.D. Shchukin, P.A. Rebinder: Fiziko-khimicheskaya mekhanika metal­

lOt) (Physico-Chemical Mechanics of Metals) (Izd, AN SSSR, Moscow 1962) (in Russian) 2.93 J.J. Gilman: Austr. J. Phys. 13A, 327 (1969) 2.94 Yu.S. Boyarskaya: Deformirot)aniye kristalot) pri ispytanii na mikrott)erdost'

(Deformation of Crystals in Microhardness Testing) (Shtiintsa, Kishinev 1972) (in Russian)

References 573

2.95 N.P. Yushkin: Mekhanicheskiye svoistva mineralov (Mechanical Properties of Minerals) (Nauka, Leningrad 1971) (in Russian)

2.96 L.L. Beranek: Acoustic Measurements (Wiley, New York; Chapman and Hall, London, 1949, VIII)

2.97 B.P. Belikov, K.S. Aleksandrov, T.V. Ryzheva: Uprugiye svoistva mineralov i gornykh porod (Elastic Properties of Minerals and Rocks) (Nauka, Moscow 1970) (in Russian)

2.98 V.S. Postnikov: Vnutrennee treniye v metallakh (Internal Friction in Metals) (Metal­lurgiya, Moscow 1969) (in Russian)

2.99 G.A. Dubov, V.R. Regel: Zhurn. Tekhn. Fiz. 25, 2542 (1955) (in Russian) 2.100 N.Yu. Ikornikova: "Metodika issledovaniya mikrotverdosti korunda" (Procedure for In­

vestigation of Corundum Microhardness), in: Mikrotl)erdost' (Microhardness), ed. by M.M. Khrushchev (lzd. AN SSSR, Moscow 1951), p. 100 (in Russian)

2.101 S.N. Zhurkov: Vestnik AN SSSR, N 3, 6 (1968) (in Russian) 2.102 V.R. Regel, A.I. Slutsker, E.E. Tomashevski: SOy. Phys.-Uspekhi 15, 45 (1972) 2.103 V.R. Regel, A.I. Slutsker, E.E. Tomashevski: Kinetichneskaya priroda prochnosti

tverdykh tel (Kinetic Nature of Strength of Solids) (Nauka, Moscow 1974) (in Russian) 2.104 V.L. Indenbom: Pis'ma v Zhurn. Eksper. i Teor. Fiz. 12, 526 (1970) (in Russian)

Chapter 3

3.1 V.V. Gladkii, I.S. Zheludev: SOy. Phys.-Crystallogr. 10, 50 (1965) 3.2 V.V. Gladkii, I.S. Zheludev: SOy. Phys.-Crystallogr. 12, 788 (1967) 3.3 A.V. Shubnikov, I.S. Zheludev, V.P. Konstantinova, I.M. Sil'vestrova: lssledovaniye

piezoelectricheskikh tekstur (Investigation of Piezoelectric Textures) (lsd-vo AN SSSR, Moscow 1955) (in Russian)

3.4 H.F. Kay, P. Vousden: Phy!. Mag. 40, 1019 (1949) 3.5 I.S. Zheludev: Fizika Kristallicheskikh dielectrikov (Physics of Crystalline Dielectrics)

(Nauka, Moscow 1968) (in Russian) 3.6 W.J. Merz: Phys. Rev. 76, 1221 (1949) 3.7 W.J. Merz: Phys. Rev. 91, 513 (1953) 3.8 W.J. Merz: J. App!. Phys. 27,938 (1956) 3.9 G.E. Bacon, R.S. Pease: Proc. Roy. Soc. A 220,397 (1953) 3.10 B. A. Strukov, S.D. Toshev: SOY. Phys.-Crystallogr. 9, 349 (1964) 3.11 A. von Arx, W. Bantle: Helv. Phys. Acta 17, 298 (1944) 3.12 G. Busch: Helv. Phys. Acta 11, 269 (1938) 3.13 J. Hablutzel: Helv. Phys. Acta 12, 489 (1939) 3.14 F. Iona, G. Shirane: Ferroelectric Crystals (Pergamon, Oxford 1962) 3.15 S. Hoshino, T. Mitsui, F. Iona, R. Pepinsky: Phys. Rev. 107, 1255 (1957) 3.16 E. Sawaguchi, I. Kittaka: J. Phys. Soc. Japan, 7, 336 (1957) 3.17 W. Cochren: Adv. Phys. 10,401 (1961) 3.18 G. Shirane, R. Nathans, V.F. Minkiewicz: Phys. Rev. 157, 396 (1967) 3.19 E.M. Lifshitz: Zhur. Eksper. Teor. Fiz. 11,255; 269 (1941) (in Russian) 3.20 V.L. Ginzburg: Usp. Fiz. Nauk 38, 490 (1949) (in Russian) 3.21 I.E. Dzyaloshinskii: Zhur. Eksper. Teor. Fiz. 19,960 (1964); Ibid. 20, 223; 665 (1965) 3.22 A.P. Levanyuk, D.G. Sannikov: SOY. Phys.-Solid State 18, 235; 1122 (1976) 3.23 V.L. Indenbom: Izv. AN SSSR, Ser. Fiz. 24, 1180 (1960)

Chapter 4

4.1 S.V. Vonsovski: Magnetism (Nauka, Moscow 1971) (in Russian) 4.2 J.S. Smart: Effective Field Theories of Magnetism (W.B. Saunders company, Philadel­

phia-London 1966) 4.3 L.D. Landau, E.M. Lifshitz: Sow. Phys. 8, 157 (1935)

574 References

4.4 H.J. Williams, R.C. Sherwood: "Structures of Ferromagnetic Domains", in: Magnetic Properties of Metals and Alloys (Amer. Soc. for Metals, Cleveland, Ohio 1958)

4.5 K. Honda, H. Masumoto: Sci. Rep. Tohoku Imp. Univ. 20, 323 (1931) (in Japanese) 4.6 R.M. Bozorth: Phys. Rev. 96, 311 (1954) 4.7 R.M. Bozorth: Ferromagnetism (Van Nostrand, Toronto, New York, London 1951) 4.8 W.R. Mason: Phys. Rev. 82, 715 (1951) 4.9 W.R. Mason: Phys. Rev. 96, 302 (1954) 4.10 R. Becker, W. Doring: Ferromagnetismus (Springer-Verlag, Berlin 1939) 4.11 N.S. Akulov. Ferromagnetism (ONTI, Moscow 1939) (in Russian) 4.12 J. Smit, H.P.J. Wijn: Ferriles (Philips' Technical Library 1959) 4.13 S. Krupicka: Physik der Ferrite und der t)erwandten magnetischen Oxide (Prag 1973) 4.14 I.E. Dzyalosninsky: Soviet Physics-JETP S, 1259 (1957) 4.15 R. Pauthenet, Y. Barnier, G. Rimet: J. Phys. Soc. Japan 17, suppl. B-1, 309 (1962) 4.16 A.S. Borovik-Romanov: SOy. Physics-JETP 9, 1390 (1959) 4.17 D.N. Astrov: SOy. Physics-JETP, 11, 708 (1960)

Chapter 5

5.1 J.C. Slater: Quantum Theory of Molecules and Solids, Vol. 3. Insulators, Semiconductors, and Metals (McGraw Hill, New York 1967)

5.2 C.S.M. Rooymans: Structural Investigations on Some Oxides and Other Chalcogenides at Normal and Very High Pressures (Academic Proetschrift, Amsterdam 1968)

5.3 S.L Pekar: Issledot)aniya po elektronnoi teorii kristallot) (On Electronic Theory of Crystals) (Gostekhizdat, Moscow, Leningrad 1951) (in Russian)

5.4 E.A. Ukshe, N.G. Bukun: Tt)erdye elektrolity (Solid electrolytes) (Nauka, Moscow 1977) (in Russian)

5.5 R.A. Smith: Semiconductors (Academic Press, New York, London 1963) 5.6 V.L. Bonch-Bruevich, S. G. Kalashnikov: Fizika poluprot)odnikot) (Physics of semicon­

ductors) (Nauka, Moscow 1977) (in Russian) 5.7 V.N. Bogomolov: Ustroistt)a s datchikami Kholla i datchikami magnitosoprotit)leniya

(Devices with Hall and magnetoresistance transducers) (Gosenergoizdat, Moscow, Lenin­grad 1961) (in Russian)

5.8 A.G. Milnes, D.L. Feucht: Heterojunctions and Metal-Semiconductor Junctions (Academic Press, New York, London 1972)

5.9 S.A. Semiletov: Elektronograficheskoe issledovanie struktury plenok germaniya (Elec-tron-diffraction study of germanium thin films). Kristallografiya 1,542 (1956) (in Russian)

5.10 J.W. Mayer, L. Eriksson, J.A. Davis: Ion Implantation in Semiconductors (Academic Press, New York, London 1970)

5.11 T.S. Moss, G.S. Burrell, B.L. Ellis: Semiconductor Optoelectronics (Butterworths, London 1973)

5.12 O.V. Bogdankevich, S.A. Darznek, P.G. Eliseev: Poluprot)odnikovye lazery (Semicon­ductor lasers) (Nauka, Moscow 1976) (in Russian)

Chapter 6

6.1 A.C. Beer: Galvanomagnetic Effects in Semiconductors (Academic Press, New York 1963) 6.2 E.H. Putley: The Hall Effect and Related Phenomena (Butterworth, London 1960) 6.3 LM. Tsidilkovskii: Thermomagnetic Effects in Semiconductors (Academic Press, New

York, London 1963) 6.4 R.T. Delves: Thermomagnetic Effects in Semiconductors and Semimetals. Rept. Progr.

Phys. 28, 249 (1965) 6.5 A.A. Abrikosov: An Introduction to the Theory of Normal Metals (Academic Press, New

York 1972)

References 575

6.6 L.D. Landau, E.M. Lifshitz: Electrodynamics of Continuous Media (Pergamon Press, London 1960)

6.7 C.S. Smith: Macroscopic Symmetry and Properties of Crystals. Solid State Phys. 6, 175 (1958) 6.8 L.N. Bulaevski: Superconductivity and Electronic Properties of Layered Compounds.

SOy. Phys.-Uspekhi 18, 514 (1976) 6.9 A.F. Ioffe: Poluprovodnikovye termoelementy (Semiconductor Thermoelements) (Izd-vo

AN SSSR, Moscow, Leningrad 1960) (in Russian)

Chapter 7

7.1 L.D. Landau, E.M. Lifshitz: Electrodynamics of Continuous Media (Pergamon Press, London 1960)

7.2 F. Pockels: Lehrbuch der Kristalloptik (Leipzig, Berlin 1906) 7.3 S. Szivessy: Kristalloptik. Handbuch der Physik. Bd 20 (Springer, Berlin 1928) 7.4 R.W. Ditchburn: Light (Blackie & Son, London 1963) 7.5 R.W. Wood: Physical Optics (Macmillan, New York 1934) 7.6 E.S. Larsen, H. Berman: The Microscopic Determination of the Nonopaque Minerals 2nd

ed. (Washington Gov. Print Off. 1934) 7.7 M. Born, W. Wolff: Principles of Optics. Electromagnetic Theory of Propagation, Inter­

ference and Diffraction of Light 2nd ed. (Pergamon Press, Oxford, London, Edinburgh, New York, Paris, Frankfurt 1964)

7.8 I.I. Shafranovsky: Istoriya kristallografii (The History of Crystallography) (Nauka, Moscow 1978) (in Russian)

7.9 V.A. Kizel': Otrazheniye sveta (Light Reflection) (Nauka, Moscow 1973) (in Russian) 7.10 Y.V. Dashevsky: (Zh. Eksp. Teor. Fiz. 8, 1007 (1938) (in Russian) 7.11 F.r. Fedorov, V.V. Filippov: Otrazheniye i prelomleniye sveta prozrachnymi kristallami

(Reflection and Refraction of Light by Transparent Crystalls) (Nauka i Tekhnika, Minsk 1976) (in Russian)

7.12 F.r. Fedorov: Optika anizotropnykh sred (Optics of Anisotropic Media) (Nauka, Moscow 1958) (in Russian)

7.13 W.A. Shurkliff: Polarized Light Production and Use (Harvard Univ. Press, Cambridge, Mass. 1962)

7.14 A. Gerrard, J.M. Burch: Introduction to Matrix Methods in Optics (John Wiley & Sons, London, New York, Sydney, Toronto 1975)

7.15 A. V. Shubnikov: Opticheskaya kristallografiya (Optical Crystallography) (Izd-vo AN SSSR, Moscow 1950) (in Russian)

7.16 V.S. Sobolev: Fedorovskii metod (The Fedorov Method) (Gos. nauch.-tekh. izd-vo lit-ry po geologii i okhrane nedr, Moscow 1954) (in Russian)

7.17 V.N. Lodochnikov: Osnovy kristallooptiki (Fundamentals of Crystal Optics) (Gosgeo­lizdat, Moscow, Leningrad 1947) (in Russian)

7.18 D.S. Beljankin, W.P. Petrov: Kristalloptik (Ubers. H. Werner, "Technik", Berlin 1954) 7.19 N.M. Melankholin, S.V. Grum-Grzimailo: Metody issledovaniya opticheskikh sboistv

kristallov (Methods for Investigation of Optical Properties of Crystals) (Izd-vo AN SSSR, Moscow 1954) (in Russian)

7.20 A.M. Goncharenko: SOy. Phys.-Crystal!ogr. 4, 688 (1959) 7.21 M. Born: Optik. Ein Lehrbuch der elektromagnetischen Lichttheorie von Dr. Max Born

(Springer, Berlin 1933) 7.22 Yu. r. Sirotin, M.P. Shaskol'skaya: Fundamentals of Crystal Physics (Mir, Moscow 1982) 7.23 F.I. Fedorov, A.F. Konstantinova: Optics & Spectrosc. 12,223 (1962) 7.24 Tekhnicheskaya entsiklopediya (Technical Encyclopedia) (Sov. entsiklopediya, OGIZ,

Moscow 1932) (in Russian) 7.25 A.F. Konstantinova, N.R. Ivanov, B.N. Grechushnikov: SOy. Phys.-Crystallogr. 14, 222

(1969) 7.26 M.V. Hobden: Acta Crystallogr. A24, 676 (1968)

576 References

7.27 F.I. Fedorov, B.V. Bokut', A.F. Konstantinova: SOy. Phys.-Crystallogr. 7, 738 (1962) 7.28 F.I. Fedorov: Theoriya girotropii (Gyrotropy Theory) (Nauka, Moscow 1976) (in Russian) 7.29 B.V. Bokut', A.N. Serdyukov, F.I. Fedorov: SOy. Phys.-Crystallogr. IS, 871 (1970) 7.30 V.M. Agranovich, V.L. Ginzburg: Spatial Dispersion in Crystal Optics and Theory oj

Excitons (John Wiley & Sons, London, New York, Sydney 1966) 7.31 V.A. Kizel', Y.J. Krasilov, V.I. Burkov: Uspekhi fiz. nauk 114, 295 (1974) (in Russian) 7.32 I.S. Zheludev: Elektricheskiye kristally (Electrical Crystals) (Nauka, Moscow 1969) (in

Russian) 7.33 A.S. Sonin, A.S. Vasilevskaya: Elektroopticheskiye kristally (Electrooptical Crystals)

(Atomizdat, Moscow 1971) (in Russian) 7.34 T.R. Sliker: JOSA, 54, 1348 (1964) 7.35 J.F. Nye: Physical Properties of Crystals (Clarendon Press, Oxford 1964) 7.36 V.A. Shamburov: SOy. Phys.-Crystallogr. 7, 476 (1962) 7.37 I.P. Kaminow, E.N. Turner: App. Optics 5, 1612 (1966) 7.38 I.S. Zheludev, O.G. Vlokh: SOy. Phys.-Crystallogr. 5, 368 (1960) 7.39 O.G. Vlokh, T.D. Krushel'nitskaya: SOy. Phys.-Crystallogr. IS, 504 (1970) 7.40 O.G. Vlokh, I.S. Zheludev, I.M. Klimov: Dok!. AN SSSR 223, 1391 (1975) (in Russian) 7.41 I.S. Zheludev: Soc. Phys.-Crystallogr. 9, 418 (1964) 7.42 E.R. Mustel', V.N. Parygin: Metody modulyatsii i skanirOI!aniya Sl!eta (Methods for

Modulation and Scanning of Light) (Nauka, Moscow 1970) (in Russian) 7.43 M.M. Frocht: Photoelasticity, Vols. 1-2 (John Wiley & Sons, New York 1941, 1948) 7.44 Yu.V. Pisarevskii, I.M. Sil'vestrova: SOy. Phys.-Crystallogr. 18, 630 (1974) 7.45 A. Korpel: "Acusto-optics", in: Applied Solid State Science, Vo!' 3, ed. by R. Wolfe

(Academic Press, New York 1972), p. 72 7.46 V. Chandrasekhar: Proc. Ind. Acad. Sci. A33, 183 (1951) 7.47 M.V. Vol'kenshtein: Molekularnaya optika (Molecular Optics) (Gostekhizdat, Moscow,

Leningrad 1951) (in Russian) 7.48 I.R. Fabelinskii: Molekulyarnoye rasseivaniye Sl!eta (Molecular Light Scattering) (Nauka,

Moscow 1965) (in Russian) 7.49 G.P. Motulevich: "Molekulyarnoye rasseyaniye v kristallakh" (Molecular Scattering in

Crystals), in: Trudy FIAN (Works of the Physical Institute of the USSR Acad. Sci.) Vo!. 5, (1950) p. 9 (in Russian)

7.50 V.L. Ginzburg: Zhurn. Eksper. i Teor. Fiz. 10,601 (1940) (in Russian) 7.51 V.V. Vladimirsky: Dok!. AN SSSR 31,866 (1941) (in Russian) 7.52 D.F. Nelson, M. Lax: Phys. Rev. Letters 24,379 (1970) 7.53 D.F. Nelson, P.D. Lazay: Phys. Rev. Letters 25, 1187 (1970) 7.54 O.V. Kachalov: Zhurn.-Eksper. i Teor. Fiz. 61, 1352 (1971) (English trans!.: SOy. Phys.­

JETP 34, 719 (1972» 7.55 N. Blombergen: Nonlinear Optics. A Lecture Note (Benjamin, New York, Amsterdam 1965) 7.56 S.A. Akhmanov, R.V. Khokhlov: Problemy nelineinoi optiki (Problems of Nonlinear

Optics) (All-Union Inst. of Scientific & Technical Information, Moscow 1964) (in Russian) 7.57 D.A. Kleinman: Phys. Rev. 128, 1761 (1962) 7.58 M.P. Golovei, LN. Kalinkina, G.I. Kosourov: Optics Spectrosc. 28, 535 (1970) 7.59 S.K. Kurtz, T.T. Perry: J. App!. Phys. 39, 3798 (1968) 7.60 F. Zernike, J. Midwinter: Applied Nonlinear Optics (Academic Press, New York 1973) 7.61 C.I. Ballhausen: Introduction to Ligand Field Theory (McGraw Hill, New York 1962) 7.62 H. Bethe: Ann. Phys. 3, 133 (1929) 7.63 M. T. Hutchings: Solid State Phys. 16,227 (1964) 7.64 A. Abragam, B. Bleaney: Electron Paramagnetic Resonance oj Transition Ions

(Clarendon Press, Oxford 1970) 7.65 E.U. Condon, G.H. Shortley: The Theory oj Atomic Spectra (Reprint. J. Cambridge

Univ. Press, Cambridge 18957) 7.66 S.A. Altshuler, B.M. Kozyrev: Elektronnyi paramagnitnyi rezonans soyedinenii elementol!

promezhutochnykh grupp (Electron Paramagnetic Resonance of Compounds of Inter­mediate-Group Elements) (Nauka, Moscow 1972) (in Russian)

References 577

7.67 S.V. Vonsovsky, S.V. Grum-Grzimailo, V.L Cherepanov et al.: Teoriya kristallicheskogo polya i opticheskiye spektry primesnykh ionov s nezapolnennoi d-obolochkoi (Nauka, Moscow 1969) (in Russian)

7.68 S. Sugano, Y. Tanabe, H. Kamimura: Multiplets oj Transition Metal Ions in Crystals (Academic Press, New York, London 1970)

7.69 D.T. Sviridov, R.K. Sviridova, Yu.F. Smirnov: Opticheskiyespektry ionov perekhodnykh metallov v kristallakh (Optical Spectra of Ions of Transition Metals in Crystals) (Nauka, Moscow 1976) (in Russian)

7.70 D.T. Sviridov, Yu.F. Smirnov: Teoriya opticheskikh spektrov ionov perekhodnykh metal­lov (Theory of Optical Spectra of Ions of Transition Metals) (Nauka, Moscow 1977) (in Russian)

7.71 T.F. Veremeichik, B.N. Grechushnikov, LN. Kalinkina, D.T. Sviridov: Zh. Prikl. Spektrosk. 26, 131 (1977) (in Russian)

7.72 A.D. Liehr, C.L Ballhausen: Ann. Physics 6, 134 (1959) 7.73 H.L. Schlafer, G. Glieman: Einjiihrung in die Ligandenjeldtheorie (Akad. Verlag, Frank­

furt am Main 1967) 7.74 A.L. Mikaelyan, M.L. Ter-Mikaelyan, J.G. Turkov: Opticheskiye generatory na

tvyordom tele (Optical Generators on a Solid) (Sov. Radio, Moscow 1967) (in Russian) 7.75 T.H. Maiman: Nature 187, 493 (1960) 7.76 B.K. Sevast'yanov, Kh. S. Bagdasarov, L.B. Pasternak, S.Yu. Volkov, V.P. Orekhova:

JETP Letters 17, 47 (1973) 7.77 Z.J. Kiss, R.C. Duncan: Proc. IRE 50,1531 (1962) 7.78 A.A. Kaminskii: Laser Crystals, Their Physics and Properties (Springer, Berlin, Heidel­

berg, New York 1981) 7.79 Z.J. Kiss, R.C. Duncan: Appl. Phys. Letters 5, 200 (1964) 7.80 P.P. Feofilov: Polyarizovannaya luminestsentsiya atomov, molekul i kristallov (Polarised

Luminescence of Atoms, Molecules and Crystals) (Fizmatgiz, Moscow 1959) (in Russian) 7.81 A.A. Kaplyanskii: Optika i spektrosk. 7, 677 (1959) (in Russian) 7.82 W. Low: Paramagnetic Resonance in Solids. Solid State Physics, Supplement 2 (Academic

Press, New York, London 1960) 7.83 A. Abragam, M.H.1. Pryce: Proc. Roy. Soc. A205, 135 (1951) 7.84 S. Geschwind, J.R. Remeika: Phys. Rev. 122, 757 (1961) 7.85 V.F. Koryagin, B.N. Grechushnikov: "Spektr EPR iona Mn2+ v kristallakh Zn, Na­

metasilikata" (EPR Spectrum of Mn2+ Ion in Crystals of Zn, Na-metalsilicate), in: Spektroskopiya kristallov (Crystal Spectroscopy), ed. by S.V. Grum-Grzimailo (Nauka, Moscow 1970), p. 323 (in Russian)

Chapter 8

8.1 P.G. de Gennes: The Physics oj Liquid Crystals (Clarendon Press, Oxford 1974) 8.2 L.D. Landau, E.M. Lifshitz: Statistical Physics, Vol. 1, 3rd ed. (Pergamon Press, Oxford

1980) 8.3 G.W. Gray: Molecular Structure and the Properties oj Liquid Crystals (Academic Press,

London, New York 1962) 8.4 LG. Chistyakov: Zhidkiye kristally (Liquid Crystals) (Nauka, Moscow 1966) (in Russian) 8.5 l.G. Chistyakov: Zhidkiye kristally (Liquid Crystals) Usp. Fiz. Nauk 98, 563 (1966) (in

Russian) 8.6 M.J. Stephen, J.P. Straley: Physics of Liquid Crystals, Rev. Modern Phys. 46, 617 (1974) 8.7 G.W. Gray, P.A. Winston: Liquid Crystals and Plastic Crystals (Oxford Univ. Press,

Oxford 1974) 8.8 B.K. Vainshtein, I.G. Chistyakov: "Simmetriya, struktura i svoistva zhidkikh kristallov"

(Symmetry, Structure and Properties of Liquid Crystals), in: Problemy sovremennoi kristallograjii (Problems of Modern Crystallography), ed. by B.K. Vainshtein, A.A. Chernov (Nauka, Moscow 1975), pp. 12-26 (in Russian)

578 References

8.9 G.H. Brown (ed.): Advances in Liquid Crystals (Academic Press, London, New York) Vol. 1 (1975), Vol. 2 (1976), Vol. 3 (1978)

8.10 LF. Johnson, R.S. Porter (eds.): Liquid Crystals and Ordered Fluids, Vol. 1 (1976), Vol. 2 (1977), Vol. 3 (1978) (Plenum, New York, London)

8.11 A.P. Kapustin: Eksperimental'nyie issledovaniya zhidkikh kristaI/o v (Experimental Inves­tigations of Liquid Crystals) (Nauka, Moscow 1978) (in Russian)

8.12 N.A. Plate, V.P. Shibayev: Grebneobraznyie polimery i zhidkiye kristally (Comblike Polymers and Liquid Crystals) (Khimiya, Moscow 1980) (in Russian)

8.13 L.M. B1inov: Elektro- i magnitooptika zhidkikh kristal/ov (Electro- and Magnetooptics of Liquid Crystals) (Nauka, Moscow 1978) (in Russian)

8.14 S.A. Pikin: Strukturnyie prevrashcheniya v zhidkikh kristallakh (Structural Transforma­tions in Liquid Crystals) (Nauka, Moscow 1981) (in Russian)

8.15 S. Chandrasekhar: Liquid Crystals (Cambridge Monographs on Physics, Cambridge 1977) 8.16 S.A. Pikin, V.L. Indenbom: Thermodynamic States and Symmetry of Liquid Crystals,

Usp. Fiz. Nauk 125, 251 (1978) English transl.: Sov. Phys.-Uspekhi 21, 487 (1978) 8.17 V.N. Tsvetkov: Magnitnaya vospriimchivost' zhidkikh kristallov (Magnetic Susceptibility

of Liquid Crystals) Zhurn. Eksper. i Teor. Fiz. 9, 602 (1939) (in Russian) 8.18 L.K. Vistin': Novoye elektrostrukturnoye yavleniye v zhidkikh kristallakh

nematicheskogo tipa (New Electrostructural Phenomenon in Nematic - Type Liquid Crystals), Dokl. AN SSSR 194, 1318 -1325 (1970) (in Russian)

Subject Index

Acceptors 352 Anisotropy field 304 Anisotropy, magnetic

constants 283, 320, 322, 340 energy 282 measurement 234

Antiferroelectric 208, 216, 239 Antiferromagnetism 270, 275, 281 Atmospheres (clouds) of

Cottrell 113 Debeye-Hiickel 115 Snoek 114 Suzuki 113

Bands of Brilliantov-Obreirnov 91 deformation and kink 91 slip 85

Barium titanate 217 Barkhausen jump 307 Beam vector 408

surface 410 Becke strip 431 Bertin surfaces 429 Biaxial crystals 412 Biradials 415 Birefringence 418

circular 442 Bohr magneton 272 Bragg region 456 Breakdown, thermal 185

electrical 185 Brewster angle 420 Brigman effect 390, 392 Brillouin-Debye formula 274, 284

Calcite, thermal conductivity 383 Cauchy rations 72 Characteristic surfaces of

elastic properties 69 symmetric second-rank tensor 14, 18 strains 58 stresses 54

Chiral molecules 519 Cholesteric phase 533 Circular birefringence 442

dichroism 442 Cleavage 153 Coefficients of

compliance 60 elasticity 61 electrical conductivity 377 Ettingshausen effect 398, 402 Hall effect 398, 402 Lame 63 magnetoresistance effect 398, 403 Nernst effect 398, 403 Righi-Leduc effect 398, 402 stiffness 60 thermal conductivity 382, 383

Colloid system 528 Compensation point 287, 330, 343 Compensator 432 Conical refraction 415 Conoscopic patterns 425, 427, 429 Cotton-Mouton effect 449 Creep 129, 132, 134 Critical normal stress 156 Critical shear stress 87 Crystal field theory 470 Crystallophysical system of coordinates 2,

31 Curie law 274, 328 Curie constant 274 Curie principle 46, 281 Curie temperature (point) 274, 283, 288 Curie-Weiss law 274, 285, 288

Demagnetizing field 268, 295 Dichroism 435

circular 442 Diamagnetism 270, 271 Diamond

forbidden gap 350 mobility of electrons 358

Dielectric losses 178, 186, 212

580 Subject Index

Disclike moleculaes 514 Disinclination 515 Diodes 366

injection of electrons (holes) 368, 371 Dislocation mUltiplication 103

by means of Frank-Read source 103 by double cross-slip 105

Dislocation reactions 108 Dislocations

glide and climb 97 cross-slip 97 prismatic glide 97 velocity of motion 99

Domain structure (in magnetics) 291, 301 walls 297

Domains in liquid crystals 515, 518, 557, 562

Donors 352, 353 Duality principle 409 Dynamic light scattering 557, 558 Dzyaloshinsky vector 335

Easy magnetization axis 282, 304 cone and plane 299, 323

Elastic waves 73 Elasticity 50, 60

imperfect 92 rubber 150

Elasto-optic coefficients 450 Electrical conductivity 178, 184, 212, 353,

355, 376, 381 coefficients 377 of semiconductors 353 of some metals 379

Electrical contacts 364, 365 nonrectifying 365 ohmic 364 rectifying 365

Electrocaloric effect 189, 191 Electrodichroism 559 Electrohydrodynamic instabilities 552 Electron

drift velocity 356 energy distribution 360, 370 mobility 354, 356, 358 thermal velocity 356

Electron-hole junctions 360 Electrooptical amplifier 560

effect 443, 449, 453 Electrostriction 192, 203 Elliptically polarized light 421 Enantiotropic phase 566 Energy band~ 348, 349, 350

conduction 349, 350

energetic 349 forbidden 349, 350 valence 349

EPR spectrum fine structure 508 hiperfine structure 509

Ettinghausen effect 394, 397, 403 Exchange energy 281, 328 Exchange interaction 281 Extraordinary wave 411

Fabri-Perot resonator 372 Faraday effect 448 Fatigue 91 Fermi level 360 Ferrimagnetism 277 Ferrites 277, 327

hexagonal 330 with a garnet structure 329 with a spinel structure 327

Ferroelastic phase transition 48 Ferroelectric 208

phase transition 48 Ferromagnetic phase transition 49 Ferromagnetism 270, 275, 281

weak 277 Flexoelectric effect 545 Fracture 152 Frank coefficients 540 Frederiks effect 543 Fresnel equation 408 Fresnel theorem 414

Galvanomagnetic effects 393 Germanium

forbidden gap 350 mobility of electrons 358

Gibbs equation 386 Glide 77

easy 93 elements 81 "pencil" 87 polar 87 prismatic 97 system 81

independent 90 translational 77

Gorsky effect 128 Griffith criterium 161 Gyration vector 437

Hall effect 356, 394, 395, 402 Hall emf 357 Hall generator 358 Hardness 166

Helicoid magnetic structures 275, 277 Homogeneous stressed state 52 Homologous series 565 Hook's law 60, 66 Hysteresis

loop 214 magnetic 305

Immersion method 430 Impurities in crystals 352, 353

acceptors 352 donors 352 energy of ionisation 353

Indicatrice surfaces for a tensors 21, 23 Induction, magnetic 268, 305 Infinite (limiting) point groups of sym-

metry 25 Information reflection systems 559 Insulators 348 Interaction of dislocations

between each other 106 with impurities 112 - 117 with point defects 110

Internal friction 118 anisotropy 120

Ioffe effect 163 Ionic conductors 350, 351 Isochrome 426 Isogyre 427 Isotropic phase 531

Jones vector 422 Joule-Lenz equation 377

Kink on dislocation 102 Kramers doublet 508 Lande factor 273 Langevin-Pauli formula 271 Lasers 497 Lattice, dynamic 254 Light absorbtion 359

extrinsic 359 intrinsic 359

Light diodes 359 Limit of elasticity 92 Liquid crystals 513

bulk force 551 confocal domains 518 critical indices 535, 538, 549 density wave 532 diamagnetic susceptibility 540 dielectric permeability 540 diffusion tensor 551 disinclination melting 549 electrical conductivity 551

Subject Index 581

instabilities 530 longitudional domains 562 memory effect 561 modulated structures 530, 546 moduli of elasticity 542 optical activity 524 piezomoduli 547 positional order 519 spontaneous polarisation 547 textures 516, 518, 523 treshold characteristic 543 transverse domains 557 tricritical point 533 two-dimensional ordering 537 viscosity coefficients 550

Magnetic symmetry 49, 278 Magnetization 268

curve 303 residual 292, 305 saturation 302, 305 spontaneous 275, 284

Magnetoelastic energy 294, 319 Magnetoelectric effect 344 Magnetoresistance effect 398 Magnetostriction isotropic 314

for crystals of different symmetry 311 linear 293, 305 spontaneous 293

Mandel'shtam-Brillouin scattering 459 Martensitic transformations 151 Mesomorphous state 513 Metals 348, 379 Microhardness 167 Micelles 529 Molecular field theory 283 Moment magnetic 272 Monotropic phase 567 Morphic properties and effects 47

Neel temperature (points) 283, 288 Nematic phase 532 Nernst effect 394, 397

coefficients 403 Neumann principle 35, 37 Nonlinear susceptibility tensor 466

Ohm's law 376 Onsager's law 382 Operator-equivalent method 475 Optically active crystals 437 Optic axes 411,413

indicatrix 409 Orientational fluctuations in liquid

crystals 515

582 Subject Index

Orientational order 513, 532 Orientational turbulence 530, 554 Orowan criterium 161 Orthoferrites 277, 336 Orthogonal transformation 2

Paramagnetism 270, 273 Parameter of elastic anisotropy 67 Peltier effect 386, 391 Peltier coefficient 386 Permeability, magnetic 268

initial 306 maximum 307

Phase transition 242 incommensurate 262

Photocells 373 Photoconductivity 359 Photodiode 375 Piezoelectric effect 192

texture 207 Piezomagnetic effect 343 Piezo-optical coefficients 450 Piezospectroscopy 504 Poincare sphere 421 Poisson modulus 63 Polarization 178,212

electron-displacement 181 ion-displacement 181 relaxational 182

Polarized luminescence method 502 Polarons 350 Potassium dihydrophosphate 225 Prism method 430 Pseudoscalars 4, 26 Pseudotensors 8, 29 Pyroelectric effect 189, 190, 215

Racah parameters 481 Raman-Nath region 456 Rayleigh scattering 461 Rebinder effect 164 Recombination of electrons 359 Refractive Index 408 Reorientation

effect 164 transitions 291, 340

Righi-Leduc effect 394, 396 Righi-Leduc coefficients 402 Rochelle salt 229 Scalars 4, 26 Second harmonic 466 Secular equation 21 Selective light reflection 525 Semiconductors 348 - 375

degenerate 360

electronic-type 352 hole-type 352 intrinsic 353 nondegenerate 361

Semiconductor lasers 359, 370 Semiconductor triodes (transistors) 369 Sensitizer 501 Shear strain 55 Shear stress 88 Silicon

forbidden gap 350 mobility of electrons 358

Silicon carbide forbidden gap 350 mobility of electrons 358

Slip lines, bands 85 Smectic phases 519 Specific rotation 439 Spin-Hamiltonian method 506 Spontaneous polarization 241 Strain

elastic 56 homogeneous 57 longitudinal 54 plastic 50, 68

by glide 68 by climb 130

shear 54 Strenght 94, 152 Stress 53, 88

of Peierls-Nabarro 103 relaxation 135

Strong-field approximation 493 Sub lattices, magnetic 275 Supercooled phase 536 Superionic conductors 351 Susceptibility, magnetic 268 Symmetry of

crystal 35 physical properties 33, 35, 38 tensors, interior 11

proper (exterior) 24, 30, 33 Synchronism angle 467

Tensor of elastic distortion 56 plastic strain 78, 79 rotation 57 strain 57 stress 52

Tensors 5 axial 8 material 30, 38

number of independent components 43 polar 9

reciprocal 12 of the second rank 5

characteristic surfaces 14, 18 indicatrice surfaces 21 principal axes and values 15, 20

symmetric and antisymmetric 10 transformation of the components 7

Thermoelectric effects 385, 389, 393 Thermomagnetic effects 393 Thomson effect 386 Transport phenomena in crystals 376 Triglycine sulphate 234 Twinning 136

elements 140 irrational 91 plane, direction 138

Thins elastic 145

Subject Index 583

polysynthetic 145 of rotation and reflection 140

Uniaxial crystals 410

Vectors 4, 9, 26 Verdet constant 448

Wave normal 407 vector 409

Waves, elastic 73 Weak-field approximation 491

Yield point 92, 94 Young modulus 63

Zeebeck effect 385