LECTURE NOTES WT 2017-18
1) Status modern electronics
2) Basics of electronic materials
3) Quantum dots, Coulomb blockade, single electron transistors
3.1 Slides of lecture
5) Spintronics and spin-orbit devices
5.1 Slides of lecture
6) Valleytronics, orbitronics
9) Molecular electronics
10) Quantum Computing
LECTURE NOTES ST 2017
1) CMOS
2) Electrons in Quantum Structures - 0D, 1D, 2D, 3D
2.1 Slides of lecture for 2) and 3)
3) Length scales
4) Nanotubes
5) 2D Materials (incl. graphene)
6) Quantum capacitance
7) Localization
7.2 Goodies
8) Aharonov-Bohm effect
9) Phase-transition transistors
LECTURE NOTES WT 2016-17
1.1 Tunneling spectroscopy and BKT transition - 08-11-2016
2. Graphene a) electronic properties
4. Oxide Heterostructures - 13-12-2016
LECTURE NOTES ST 2016
Semiconductors - 2a introduction - 2016-04-05
Semiconductors - 2b epitaxial growth of heterostructures, MBE, PLD - 2016-05-03
Semiconductors - 2c electrons in quantum structures, 2016-05-24
Semiconductors - 2d Quantum Hall Effects, 2016-06-14
Semiconductors - 2f quantum dots, 2016-06-21
Semiconductors - 2h mesoscopic devices (e.g., SETs)
Semiconductors - 2i high speed heterostructure devices
Recommended books for the lecture "Quantum Heterostructures I"
LECTURE NOTES ST 2015
Chapter 1 - Nanotubes 2015-05-05
Chapter 2 - Characterization on the Nanoscale 2015-05-19
Chapter 4 - Mesoscopic Transport 2015-07-07
Chapter 6 - Kondo Effect 2015-07-14
Chapter 7 - Molecular Electronics 2015-07-21
LECTURE NOTES WT 2014-15
Chapter 2 - Fermi Liquid Theory
Chapter 3 - Hartree-Fock Model
Chapter 4 - Density Functional Theory
LECTURE NOTES ST 2014
Chapter 1 Josephson tunnel junctions
Chapter 1.1 Josephson Pi tunnel junctions
Chapter 2 Graphene structural and electronic properties
Chapter 3 Topological insulators
Chapter 4 Oxide heterostructures
LECTURE NOTES ST 2013
Notes 2a Semiconductor introduction
Notes 2b epitaxial growth of heterostructures