Tunnel junction thermometry down to millikelvin temperatures

Anna Feshchenko; L. Casparis; Ivan Khaymovich; D. Maradan; Olli-Pentti Saira; M. Palma; M. Meschke; Jukka Pekola; D.M. Zumbühl

doi:10.1103/PhysRevApplied.4.034001

Tunnel junction thermometry down to millikelvin temperatures

Anna Feshchenko, L. Casparis, Ivan Khaymovich, D. Maradan, Olli-Pentti Saira, M. Palma, M. Meschke, Jukka Pekola, D.M. Zumbühl

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Abstract

We present a simple on-chip electronic thermometer with the potential to operate down to 1 mK. It is based on transport through a single normal-metal–superconductor tunnel junction with rapidly widening leads. The current through the junction is determined by the temperature of the normal electrode that is efficiently thermalized to the phonon bath, and it is virtually insensitive to the temperature of the superconductor, even when the latter is relatively far from equilibrium. We demonstrate here the operation of the device down to 7 mK and present a systematic thermal analysis.

Original language	English
Article number	034001
Pages (from-to)	1-9
Number of pages	9
Journal	Physical Review Applied
Volume	4
Issue number	3
DOIs	https://doi.org/10.1103/PhysRevApplied.4.034001
Publication status	Published - 3 Sept 2015
MoE publication type	A1 Journal article-refereed

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10.1103/PhysRevApplied.4.034001

PhysRevApplied.4Final published version, 1.02 MB

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title = "Tunnel junction thermometry down to millikelvin temperatures",

abstract = "We present a simple on-chip electronic thermometer with the potential to operate down to 1 mK. It is based on transport through a single normal-metal–superconductor tunnel junction with rapidly widening leads. The current through the junction is determined by the temperature of the normal electrode that is efficiently thermalized to the phonon bath, and it is virtually insensitive to the temperature of the superconductor, even when the latter is relatively far from equilibrium. We demonstrate here the operation of the device down to 7 mK and present a systematic thermal analysis.",

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AU - Feshchenko, Anna

AU - Casparis, L.

AU - Khaymovich, Ivan

AU - Maradan, D.

AU - Saira, Olli-Pentti

AU - Palma, M.

AU - Meschke, M.

AU - Pekola, Jukka

AU - Zumbühl, D.M.

PY - 2015/9/3

Y1 - 2015/9/3

N2 - We present a simple on-chip electronic thermometer with the potential to operate down to 1 mK. It is based on transport through a single normal-metal–superconductor tunnel junction with rapidly widening leads. The current through the junction is determined by the temperature of the normal electrode that is efficiently thermalized to the phonon bath, and it is virtually insensitive to the temperature of the superconductor, even when the latter is relatively far from equilibrium. We demonstrate here the operation of the device down to 7 mK and present a systematic thermal analysis.

AB - We present a simple on-chip electronic thermometer with the potential to operate down to 1 mK. It is based on transport through a single normal-metal–superconductor tunnel junction with rapidly widening leads. The current through the junction is determined by the temperature of the normal electrode that is efficiently thermalized to the phonon bath, and it is virtually insensitive to the temperature of the superconductor, even when the latter is relatively far from equilibrium. We demonstrate here the operation of the device down to 7 mK and present a systematic thermal analysis.

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U2 - 10.1103/PhysRevApplied.4.034001

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JO - Physical Review Applied

JF - Physical Review Applied

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ER -

Tunnel junction thermometry down to millikelvin temperatures

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Tunnel junction thermometry down to millikelvin temperatures

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