Template:Course Topics: Difference between revisions

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*'''Nanostructures in equilibrium:''' two-dimensional electron gas, graphene, carbon nanotubes, quantum wires and dots, magnetic nanostructures, elements of density functional theory (DFT).
*'''Nanostructures in equilibrium:''' two-dimensional electron gas, graphene, carbon nanotubes, quantum wires and dots, topological insulators, elements of density functional theory (DFT).
* '''Nanostructure out of equilibrium:''' conductance quantization, weak and strong localization, quantum Hall effect, interferometers, magnetic tunnel junctions, Coulomb  blockade, I-V curves.
* '''Nanostructure out of equilibrium:''' conductance quantization, weak and strong localization, quantum Hall effect, interferometers, magnetic tunnel junctions, spin-transfer torque, Coulomb  blockade.
* '''Theoretical techniques:''' Boltzmann equation, spin and charge diffusion equations, Landauer-Büttiker scattering formalism, nonequilibrium Green function (NEGF) techniques.
* '''Theoretical techniques:''' Boltzmann equation, spin and charge diffusion equations, Landauer-Büttiker scattering formalism, nonequilibrium Green function (NEGF) techniques.
* '''Experimental techniques:''' Scanning Tunneling and Atomic Force Microscopy.
* '''Experimental techniques:''' Scanning Tunneling and Atomic Force Microscopy.
* '''Applications:''' nanoelectronics, thermoelectrics, and spintronics.
* '''Applications:''' nanoelectronics, thermoelectrics, and spintronics.

Revision as of 20:05, 28 August 2012

  • Nanostructures in equilibrium: two-dimensional electron gas, graphene, carbon nanotubes, quantum wires and dots, topological insulators, elements of density functional theory (DFT).
  • Nanostructure out of equilibrium: conductance quantization, weak and strong localization, quantum Hall effect, interferometers, magnetic tunnel junctions, spin-transfer torque, Coulomb blockade.
  • Theoretical techniques: Boltzmann equation, spin and charge diffusion equations, Landauer-Büttiker scattering formalism, nonequilibrium Green function (NEGF) techniques.
  • Experimental techniques: Scanning Tunneling and Atomic Force Microscopy.
  • Applications: nanoelectronics, thermoelectrics, and spintronics.