Basic Information
Characteristics Lengths Scales in Solids, Landauer Formalism (applications# Conductance Quantization, Quantum Hall Effect), Geometrical Phases (berry, Aharonov - Bohm), Coherence and Dephasing, Electron-electron Interaction, Localization and Conductance Fluctuations, The Two-dimensional Electron Gas, Quantum Dots And Coulomb Blockade, Quantum Computing.
Faculty: Electrical and Computer Engineering
|Undergraduate Studies
|Graduate Studies
Pre-required courses
(44124 - Physical Electronics and 46241 - Quantum Mechanics) or (44124 - Physical Electronics and 115203 - Quantum Physics 1) or (46241 - Quantum Mechanics and 116217 - Solid State Physics) or (115203 - Quantum Physics 1 and 116217 - Solid State Physics)
Related Books
- Electronic transport in mesoscopic systems - Datta, Supriyo
- Electronic transport in mesoscopic systems - Datta, Supriyo,
- Introduction to mesoscopic physics - Imry, Yoseph
- Introduction to mesoscopic physics - Imry, Yoseph.
- Introductory quantum mechanics - Liboff, Richard L.
- Metal-semiconductor contacts - Rhoderick, E. H.
- Physics of semiconductor devices - Sze, S. M.,
- Physics of semiconductor devices - Sze, Simon M.
- Quantum mechanics - Cohen-Tannoudji, Claude
- Quantum mechanics - Cohen-Tannoudji, Claude
- Semiconductor and electronic devices - Bar-Lev, Adir
- Semiconductors and electronic devices - Bar-Lev, Adir
- Solid state physics - Ashcroft, Neil W.
- The Aharonov-Bohm effect - Peshkin, M.
- The Aharonov-Bohm effect - Peshkin, M.
- The Aharonov-Bohm Effect - Peshkin, M. A.
- Transport in nanostructures - Ferry, David K.
- Transport in semiconductor mesoscopic devices - Ferry, David K.,
- Wave mechanics applied to semiconductor heterostructures - Bastard, Gerald
- Wave mechanics applied to semiconductor heterostructures. - Bastard, Gerald