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Paper detail

Non-galvanic primary thermometry of a two-dimensional electron gas

We report the experimental realization of a non-galvanic, primary thermometer capable of measuring the electron temperature of a two-dimensional electron gas with negligible thermal load. Such a thermometer consists of a quantum dot whose temperature-dependent, single-electron transitions are detected by means of a quantum-point-contact electrometer. Its operating principle is demonstrated for a wide range of electron temperatures from 40 to 800 mK. This noninvasive thermometry can find application in experiments addressing the thermal properties of micrometer-scale mesoscopic electron systems, where heating or cooling electrons requires relatively low thermal budgets.

preprint2013arXivOpen access
P. TorresaniM. J. Martínez-PérezS. GasparinettiJ. RenardG. BiasiolL. SorbaF. GiazottoS. De Franceschi
cond-mat.mes-hall
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P. TorresaniM. J. Martínez-PérezS. GasparinettiJ. RenardG. BiasiolL. SorbaF. GiazottoS. De Franceschi

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