Magneto-thermoelectric effects in the two-dimensional electron gas of a HgTe quantum well due to THz laser heating by cyclotron resonance absorption

Mehdi Pakmehr; Christoph Bruene; Hartmut Buhmann; Laurens Molenkamp; Bruce McCombe

Magneto-thermoelectric effects in the two-dimensional electron gas of a HgTe quantum well due to THz laser heating by cyclotron resonance absorption

POSTER

Abstract

HgTe quantum wells (QWs) have shown a number of interesting phenomena over the past 20 years, most recently the first two-dimensional topological insulating state. We have studied thermoelectric photovoltages of 2D electrons in a 6.1 nm wide HgTe quantum well induced by cyclotron resonance absorption (B $=$ 2 - 5 T) of a focused THz laser beam. We have estimated thermo-power coefficients by detailed analysis of the beam profile at the sample surface and the photovoltage signals developed across various contacts of a large Hall bar structure at a bath temperature of 1.6 K. We obtain reasonable values of the magneto-thermopower coefficients.

^*Work at UB was supported by NSF DMR 1008138 and the Office of the Provost, and at the University of Wuerzburg by DARPA MESO contract N6601-11-1-4105, by DFG grant HA5893/4-1 within SPP 1666 and the Leibnitz Program, and the EU ERC-AG Program (Project 3-TOP.

Authors

Mehdi Pakmehr
- University at Buffalo, the State University of New York
- University at Buffalo
Christoph Bruene
- University of Wuerzburg
Hartmut Buhmann
- University of Wuerzburg
Laurens Molenkamp
- University of Wuerzburg
Bruce McCombe
- University at Buffalo, The State University of New York
- University at Buffalo, the State University of New York