Strong reduction of quasiparticle fluctuations in a superconductor due to decoupling of the quasiparticle number and lifetime

Journal article (2021)

Authors

Steven A.H. De Rooij Student, SRON–Netherlands Institute for Space Research
Jochem Baselmans Tera-Hertz Sensing, SRON–Netherlands Institute for Space Research
V. Murugesan SRON–Netherlands Institute for Space Research
David Johannes Thoen Kavli institute of nanoscience Delft, Tera-Hertz Sensing
P.J. De Visser SRON–Netherlands Institute for Space Research
Research Group
Tera-Hertz Sensing
Copyright: © 2021 Steven A.H. De Rooij, J.J.A. Baselmans, V. Murugesan, David Thoen, P.J. de Visser
DOI: https://doi.org/10.1103/PhysRevB.104.L180506
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Published Date

2021

Language

English

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Research Group

Tera-Hertz Sensing

Abstract

We measure temperature-dependent quasiparticle fluctuations in a small Al volume, embedded in a NbTiN superconducting microwave resonator. The resonator design allows for readout close to equilibrium. By placing the Al film on a membrane, we enhance the fluctuation level and separate quasiparticle effects from phonon effects. When lowering the temperature, the recombination time saturates and the fluctuation level reduces by a factor ∼100. From this we deduce that the number of free quasiparticles is still thermal. Therefore, the theoretical, inverse relation between the quasiparticle number and recombination time is invalid in this experiment. This is consistent with quasiparticle trapping, where on-trap recombination limits the observed quasiparticle lifetime.

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