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Katherine Luna, Inspiration [online image] 23 Feb 2011, http://www.lorentz.leidenuniv.nl/inspiration/. Quantum transport in semiconductor nanostructures. Thomas Ihn ETH Zürich FS 2017. Organisation. Exercise classes: Hiske Overweg, overwegh@phys.ethz.ch
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Katherine Luna, Inspiration [online image] 23 Feb 2011, http://www.lorentz.leidenuniv.nl/inspiration/
Quantum transport in semiconductor nanostructures Thomas Ihn ETH Zürich FS 2017
Organisation Exercise classes: Hiske Overweg, overwegh@phys.ethz.ch Riccardo Pisoni, pisonir@phys.ethz.ch What you are supposed to do: • 1 oral presentation (10 min) in the exercise class • solve the problem sheets • active participation in lecture and exercise class (!) Website: http://www.nanophys.ethz.ch
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Today's lecture • Nanostructures in 2D – 1D – 0D • How we describe electron states • What is conductance really?
Nanostructures in 2D - 1D - 0D A.H. Castro Neto et al, Drawig conclusions from Graphene, Physics World (Nov 2006) [online], 22 Feb 2012, http://physics.bu.edu/~neto/Topic0.htm
Electrons in two dimensions 2004: • 90 nm technology • smallest gate length 50 nm • 5x106 transistors/chip Si wafer IBM Switching speed: • channel length • drift velocity Pentium IV: • 42’000’000 transistors • 2 GHz strained-silicon transistor (IBM)
Electrons in one dimension Carbon nanotubes
Electrons in one dimension InAs nanowires Bi2Se3 nanoribbons: topological insulators
Electrons in one dimension Graphene nanoribbons
Electrons in one dimension GaAs quantum point contacts GaAs quantum wires by cleaved edge overgrowth
Electrons in zero dimensions AFM- lithography electron beam lithography growth on prepatterned substrates+self-assembly self-assembling growth
Band structure of GaAs and Si GaAs Si
Effective mass approximation (parabolic band) Quantum description: Schrödinger • Effective mass • Envelope functions Corresponding classical description: Newton
Our simplified quantum view on electrons effective mass Schrödinger equation
Quantum transport phenomena 1987 1980 1989 1980
Read until next week Chapters VI. Fabrication of nanostructures X.1-3 Drude model