Solid State Physics PHYS4103 A/Prof. Clemens ULRICH Prof. Jaan ...

Solid State Physics PHYS4103
A/Prof. Clemens ULRICH
Prof. Jaan OITMAA
Thur 11:00 - 13:00 Old Main Building G32
Email Address
ulrich@phys.unsw.edu.au
Phone Number 2 938 57494
Facsimile Number 2 938 56060
Office Hour:
Monday: 1.30 – 3.00 pm
Room: 138D

Solid State Physics PHYS4103
A/Prof. Clemens ULRICH week 2 - 5
Prof. Jaan OITMAA week 6 - 12
Examination: Thursday 13. Mai 10.00 am

Unit C: SOLID STATE PHYSICS
1. Band Theory
Electrons in periodic solids; nearly-free-electron approximation;
tight-binding method, s-electrons in cubic lattices;
Density Functional approaches.
2. Electron Dynamics
The Fermi surface; effective mass; energy levels and orbits in a magnetic
field; cyclotron resonance; de Haas-van Alphen effect; examples from real
materials.
Experimental Techniques:
Solid State Physics PHYS4103
- optical spectroscopy
- specific heat, resistivity measurements, hall effect
- ARPES (using Synchrotron radiation)

Solid State Physics PHYS4103
Outline
Unit C: SOLID STATE PHYSICS – PART II
3. Fundamentals of Magnetism:
Origins of magnetism, Hund's rules; exchange interaction,
diamagnetism, paramagnetism, Curie law, molecular field, Curie-Weiss law
4. Magnetic Structures
Magnetic ordering, ferromagnetism and antiferromagnetism;
anisotropy, domains, neutron scattering determination of magnetic
structures.

Solid State Physics PHYS4103
Textbook:
N.W. Ashcroft
N.D. Mermin

Solid State Physics PHYS4103
Textbook:
Charles Kittel

Solid State Physics PHYS4103
Textbooks:
P. Yu and M. Cardona
Springer (Berlin)

Solid State Physics PHYS4103
Textbook:
O. Madelung

Solid State Physics PHYS4103
J. R. Hook and H. E. Hall
Solid State Physics
Karl Seeger:
Semiconductor Physics: An Introduction
Henry Ehrenreich and David Turnbull:
Solid State Physics

Solid State Physics PHYS4103
Examples of Fermi Surfaces
YBa 2 Cu 3 O 7
Cu

Solid State Physics PHYS4103
ARPES: Angular Resolved Photoemission Spectroscopy
Bi 2 Sr 2 CaCu 2 O 8 ARPES
Borisenko et al., Dresden/Germany

Solid State Physics PHYS4103

Band Structure of Silicon
Solid State Physics PHYS4103

Solid State Physics PHYS4103

Solid State Physics PHYS4103
LMTO
Bandstructure
Calculations
E. Pavarini JNP (2005)
shape of the
occupied
3D orbitals

Solid State Physics PHYS4103
Optical Setup, currently installed at the UNSW
Picture taken at the MPI-FKF, Stuttgart

Solid State Physics PHYS4103
Large Scale Facilities:
ESRF:
European Synchrotron Facility
ILL:
Institut Laue-Langevin
Grenoble/France

Solid State Physics PHYS4103
Synchrotron Ring
1. Linear Accelerator (16 m / 200 MeV)
2. Booster Ring (300 m diameter / 6 GeV)
3. Synchrotron Ring (844 m diameter / 200 mA at 6 GeV)

Solid State Physics PHYS4103
Undulator at the BESSY-synchrotron
84 Dipole-Magnets with a lenth of 49 mm.

Solid State Physics PHYS4103

Solid State Physics PHYS4103
A. Damascelli, Rev. Mod. Phys. 75, 473 (2003).

Solid State Physics PHYS4103

Solid State Physics PHYS4103

S.V. Borisenko, Dresden, Germany
Solid State Physics PHYS4103

S.V. Borisenko, Dresden, Germany
Solid State Physics PHYS4103

S.V. Borisenko, Dresden, Germany
Solid State Physics PHYS4103

Solid State Physics PHYS4103
ANSTO – The Bragg Institute Neutron Scattering

Solid State Physics PHYS4103
Paul Scherrer Institute – Villigen/Switzerland

Solid State Physics PHYS4103
Spectrometer TRISP at the research reactor FRMII in Munich/Germany

Solid State Physics PHYS4103
Spin Wave Dispersion Relation