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Foundations of Nanoelectronics
printable version

Lecture Program

227-0660-00 "Foundations of Nanoelectronics"

Lecturer

W. Fichtner

Credits

6KP, 8th semester

Goal

Understanding the theory behind the operation of nanometer-size devices.

Content

The lecture presents the fundamental physical concepts and mathematical tools necessary to understand the phenomena observed in nanometer-size devices.
Main topics are:

  1. Nanoelectronics/-optics/-magnetics: state-of-the-art
  2. Quantum and statistical mechanics of low-dimensional systems
  3. Relevant results from condensed matter physics
  4. Physics of transport in solid and organic materials
  5. Transport and storage in low-dimensional systems
  6. Light-matter interaction and nano-optics
  7. Thin layers and magnetic effects
  8. Carbon electronics: fullerenes, nanotubes and graphene
  9. Spin transport and spintronics
  10. Beyond the solid state: molecular electronics

Recommended background

Undergraduate physics, mathematics

Class Material

Last change: 20 February 2009    Author:  Wolfgang Fichtner