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Electronic Transport in Meso- and Nano-Scale Conductors
Last Updated: 2026-02-05 15:24:12
Abstract
Content: Scattering problems in one dimension; Waveguides - Multi-channel scattering problems; Persistent current; Coulomb blockade in a quantum dot; Scattering matrix approach to transport; Scattering matrix approach: the second-quantized formalism; Quantum and thermal noise; Full counting statistics.
Content
Possible subjects: Noninteracting Electrons Fermi Sea Pair Correlations Landauer Formula for Coherent Conductors Landauer Dipol Conductance Quantum Sharvin Resistance Second-Quantized Formalism Current Operator Lippmann-Schwinger Scattering States Conductance T versus T/R Noise Thermal/Nyquist noise Fluctuation-dissipation theorem Shot noise Telegraph noise Flicker noise Full counting statistics Characteristic function Gaussian, binomial, Poissonian statistics Spin measurement Binomial statistics for constant voltage Exchange effects Entanglement Creation of entanglement in conductors Electron exiting from a superconductor Normal conductor setups Measurement of entanglement Bell test
General Information
- Language
- English
- Levels
- MSC
Examination
- Type
- end-of-semester examination
Course Components
| Type | Title | Time & Place | Hours |
|---|---|---|---|
| lecture | Electronic Transport in Meso- and Nano-Scale Conductors |
|
2 h weekly |
| exercise | Electronic Transport in Meso- and Nano-Scale Conductors |
|
1 h weekly |