Homepage of Denis Bulaev

Summer Semester 2007

Spintronics in Nanostructures (16877-01)

	days	time	place
Lectures	every Wednesday	10:15-12:00	Room 4.1 (Institute of Physics)
Exercises	every Tuesday	10:00-11:00	Room 4.1 (Institute of Physics)

Assistant	Mircea Trif (office 4.4, e-mail: Mircea.Trif@unibas.ch)

Content

I Symmetry in Solid State Physics (3 lectures)

II k.p theory (3 lectures)

III Spin-Orbit Interactions (3 lectures)

IV Spin Coherence and Dynamics (4 lectures)

Lecture Schedule

# date lecture exercises

1 28.03.07 Introduction to Symmetry in Physics. Basics of Group Theory. Point Groups^{1, 2, 3} Assignment 1

2 04.04.07 Classes. Characters. Irreducible Representations. Basis Functions^{1, 2, 3} Assignment 2

3 11.04.07 Examples. Group Theory in Quantum Mechanics. Double Groups. Space Groups. Magnetic Groups^{1, 2} Assignment 3

4 18.04.07 Electron in Crystals. Perturbation Theory. k.p Method. Irreducible Representations of Cubic Crystals. Double Groups^{1, 2} Assignment 4

5 25.04.07 Kane Hamiltonian^{1, 2, 4} Assignment 5

6 02.05.07 Dirak Electrons in Graphene and Nanotubes. Effective One-Band Hamiltonian (Folding Down) Assignment 6

7 09.05.07 Origin of Spin-Orbit Coupling. Thomas Term. Spin-Orbit Coupling in Semiconductors^{1, 2, 4} Assignment 7

8 16.05.07 Dresselhaus Spin-Orbit Coupling. Two-Dimensional Electron Gas. Rashba Spin-Orbit Coupling.^{1, 2} Assignment 8

9 23.05.07 Spin-Orbit Coupling for Holes^{1, 4}. Spin-Orbit Coupling in Graphene and Nanotubes Assignment 9

10 30.05.07 Bloch-Redfield Theory^{5, 6} Assignment 10

11 06.06.07 Spin Relaxation and Decoherence^{5, 6} Assignment 11

12 13.06.07 Electron Spin Resonance. Electic-Dipole Spin Resonance. Spin Echo. Rabi Oscillations⁶ Assignment 12

13 20.06.07 Spin Hall Effect. Spin Current Assignment 13

14 27.06.07 Finish

Literature

[1] M.S. Dresselhaus, G. Dresselhaus & A. Jorio, Group Theory: Application to the Physics of Condensed Matter (Springer, 2007).
[2] G.L. Bir and G.E. Pikus, Symmetry and Strain-Induced Effects in Semiconductors (John Wiley & Sons, New York, 1974).
[3] L.D. Landau & L.M. Lifshitz, Quantum Mechanics: non-relativistic theory (Elsevier, 1981), Chap. 12.
[4] R. Winkler, Spin-Orbit Coupling Effects in Two-Dimensional Electron and Hole Systems (Springer, Berlin, 2003).
[5] K. Blum, Density Matrix Theory and Applications (Springer, 1996).
[6] Ch.P. Slichter, Principles of Magnetic Resonance (Springer, Berlin, 1996).

last updated on 28/03/2007

Content
I	Symmetry in Solid State Physics (3 lectures)
II	k.p theory (3 lectures)
III	Spin-Orbit Interactions (3 lectures)
IV	Spin Coherence and Dynamics (4 lectures)
Lecture Schedule
#	date	lecture	exercises
1	28.03.07	Introduction to Symmetry in Physics. Basics of Group Theory. Point Groups^{1, 2, 3}	Assignment 1
2	04.04.07	Classes. Characters. Irreducible Representations. Basis Functions^{1, 2, 3}	Assignment 2
3	11.04.07	Examples. Group Theory in Quantum Mechanics. Double Groups. Space Groups. Magnetic Groups^{1, 2}	Assignment 3
4	18.04.07	Electron in Crystals. Perturbation Theory. k.p Method. Irreducible Representations of Cubic Crystals. Double Groups^{1, 2}	Assignment 4
5	25.04.07	Kane Hamiltonian^{1, 2, 4}	Assignment 5
6	02.05.07	Dirak Electrons in Graphene and Nanotubes. Effective One-Band Hamiltonian (Folding Down)	Assignment 6
7	09.05.07	Origin of Spin-Orbit Coupling. Thomas Term. Spin-Orbit Coupling in Semiconductors^{1, 2, 4}	Assignment 7
8	16.05.07	Dresselhaus Spin-Orbit Coupling. Two-Dimensional Electron Gas. Rashba Spin-Orbit Coupling.^{1, 2}	Assignment 8
9	23.05.07	Spin-Orbit Coupling for Holes^{1, 4}. Spin-Orbit Coupling in Graphene and Nanotubes	Assignment 9
10	30.05.07	Bloch-Redfield Theory^{5, 6}	Assignment 10
11	06.06.07	Spin Relaxation and Decoherence^{5, 6}	Assignment 11
12	13.06.07	Electron Spin Resonance. Electic-Dipole Spin Resonance. Spin Echo. Rabi Oscillations⁶	Assignment 12
13	20.06.07	Spin Hall Effect. Spin Current	Assignment 13
14	27.06.07	Finish