Nongalvanic thermometry for ultracold two-dimensional electron domains
arXiv:1203.5693 · doi:10.1063/1.4729388
Abstract
Measuring the temperature of a two-dimensional electron gas at temperatures of a few mK is a challenging issue, which standard thermometry schemes may fail to tackle. We propose and analyze a nongalvanic thermometer, based on a quantum point contact and quantum dot, which delivers virtually no power to the electron system to be measured.
5 pages, 3 figures