Embed Size (px)
DESCRIPTION
Anisotropic Physical Properties of Decagonal Quasicrystals Janez Dolinšek Jožef Stefan Institute, University of Ljubljana, Slovenia. Slovenia. Ljubljana. area: 20.000 km 2 population: 2 million. Adriatic sea. Lipizaner horses. Julian Alps. Lake Bled. - PowerPoint PPT Presentation
Citation preview
J. Dolinšek 1
Anisotropic Physical Properties of Decagonal Quasicrystals
Janez Dolinšek Jožef Stefan Institute, University of Ljubljana, Slovenia
J. Dolinšek 2
Slovenia
area: 20.000 km2
population: 2 million
Ljubljana
Julian Alps Lake Bled Adriatic sea Lipizaner horses
J. Dolinšek 3
“Jožef Stefan” Institute, Ljubljana, Slovenia
staff: 850
revenues (2012): 52 MEur
physics chemistry biology
J. Dolinšek 4
Structure of decagonal quasicrystals
Geometrical description:
periodic stacking of quasiperiodic atomic layers
periodic 10-fold directionquasiperiodic atomic layers
P
J. Dolinšek 5
Investigated phase
Decagonal quasicrystal d-Al-Co-Ni:
- symmetry: decagonal
- chemical composition (at. %): Al70Co10Ni20
2 atomic layers within one periodic unit of 0.4 nm along 105 axis
J. Dolinšek 6
Physical properties investigated:
- electrical resistivity ρ(T)
- magnetism χ(T), M(H)
- thermoelectric power S(T)
- Hall coefficient RH(T)
- thermal conductivity κ(T)
J. Dolinšek 7
Anisotropic physical properties of d-Al-Co-Ni
measurements performed along four crystallographic directions
(three “in-plane” and the stacking “10-fold” direction)
... stacking direction P
P
J. Dolinšek 8
d-Al-Co-Ni: samples preparation
P. Gille, G. Meisterernst, N. Faber, J. Crystal Growth 275, 224 (2005)
P
P
J. Dolinšek 9
Symmetry analysis
P
General form of a tensorial physical property (2nd rank tensor) for a decagonal point group:
b
a
a
Tij00
00
00
J. Dolinšek 10
d-Al70Co10Ni20: symmetry analysis by 27Al NMR
27Al NMR spectrum
central linecentral line
satellites
M. Bobnar et al., Phys. Rev. B 85, 024205 (2012)
J. Dolinšek 11
d-Al70Co10Ni20: orientation-dependent 27Al NMR spectra
J. Dolinšek 12
d-Al70Co10Ni20: orientation-dependent 27Al NMR satellite intensity
J. Dolinšek 13
d-Al70Co10Ni20: orientation-dependent 27Al NMR satellite intensity
J. Dolinšek 14
d-Al70Co10Ni20: electrical resistivity
P
P
T-dependent resistivity in the Q plane
Theory: Model of slow charge carriers G. Trambly de Laissardière et al., Phys. Rev. Lett. 97, 026601 (2006)
J. Dolinšek 15
d-Al70Co10Ni20 :Hall coefficient
P
M. Bobnar et al., Phys. Rev. B 85, 024205 (2012)
J. Dolinšek 16
: d-Al70Co10Ni20 : thermal conductivity
P
M. Bobnar et al., Phys. Rev. B 85, 024205 (2012)
J. Dolinšek 17
Magnetization vs. magnetic field and magnetic susceptibility
P
P
Stronger diamagnetism for the field along 10-fold axis: atomic rings in the Q plane form diamagnetic circular current loops
W. Steurer et al., Acta Cryst. B 49, 661 (1993)
J. Dolinšek 18
Conclusions
- electrical, thermal and magnetic properties of d-Al-Co-Ni decagonal quasicrystal are highly anisotropic;
- stacking direction is the most conducting direction for the electricity and heat;
- origin of anisotropy is the anisotropic stacked-layer atomic structure.
J. Dolinšek 19
Coworkers and cooperation
J. Stefan Institute, Ljubljana
Stane Vrtnik
Matej Bobnar
Zvonko Jagličić
Ludwig-Maximilian University, Munich
Peter Gille
Institute of Physics, Zagreb
Ana Smontara
![Stability of Soft Quasicrystals in a Coupled-Mode Swift ... · systems[9,10,13], while dodecagonal solid-state quasicrystals are rarely seen [5]. Hence, soft quasicrystals are thought](https://img.pdfslide.net/doc/110x75/5f021a007e708231d40293f3/stability-of-soft-quasicrystals-in-a-coupled-mode-swift-systems91013-while.jpg)
