SPP1386:Controlled thermoelectric properties of low-dimensional charge carrier systems in semiconductor heterostructures (I)


The focus of this cluster project in the DFG priority programme SPP1386 "Nanostructured thermoelectrics" is the thermoelectric properties of low-dimensional charge-carrier sysequences of thermal gradients on coherent electron traThe focus of this cluster project in the DFG priority programme SPP1386 "Nanostructured thermoelectrics" is the thermoelectric properties of low-dimensional charge-carrier systems in high-quality semiconductor heterostructures. The project focuses on systems, in which the energy spectrum is controllable to a high extent via external parameters. They can be viewed as model systems for the engineering of nanoscale objects with tailored thermoelectric properties. Experiments will be performed on systems in quasi-one-dimensional electron wires and quantum point contacts in modulation doped III-V heterostructures which will be prepared by means of electron-beam lithography. Consequences of thermal gradients on coherent electron transport is studied for quantum rings by measurement of Aharonov-Bohm resistance oscillations. The electron temperature in the quasi-two-dimensional reservoirs is determined by noise measurements and the thermopower in quasi-one dimensional wires is investigated.
The electron temperature in the quasi-two-dimensional reservoirs is determined by noise measurements and
the thermopower in quasi-one dimensional wires is investigated.

Projektleitung
Fischer, Saskia Prof. Dr. rer. nat. (Details) (Neue Materialien)

Laufzeit
Projektstart: 08/2011
Projektende: 12/2012

Forschungsbereiche
Experimentelle Physik der kondensierten Materie, Naturwissenschaften, Physik der kondensierten Materie

Forschungsfelder
Elektronik, Erneuerbare Energien, Experimentelle Physik, kondensierte Materie, Nanostrukturen, Neue Materialien

Zuletzt aktualisiert 2020-11-03 um 23:16