Observation of a new non-equilibrium state insuperconductors caused by sequential tunnelling

A. G. Kozorezov; J. K. Wigmore; A. Peacock; R. den Hartog; D. Martin; G. Brammertz; P. Verhoeve; N. Rando

doi:10.1209/epl/i2003-10181-4

Observation of a new non-equilibrium state in superconductors caused by sequential tunnelling

A. G. Kozorezov¹, J. K. Wigmore¹, A. Peacock², R. den Hartog², D. Martin², G. Brammertz², P. Verhoeve² and N. Rando²

2004 EDP Sciences
Europhysics Letters, Volume 66, Number 2 Citation A. G. Kozorezov et al 2004 EPL 66 265 DOI 10.1209/epl/i2003-10181-4

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¹ Department of Physics, Lancaster University - Lancaster, UK

² Science Payloads and Advanced Concepts Office, SCI-A European Space Agency, ESTEC - Noordwijk, The Netherlands

Dates

Received 8 October 2003
Accepted 5 February 2004

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Abstract

A previously unrecognised non-equilibrium phenomenon in superconducting tunnel junctions is identified. The situation may arise in low-loss, low-gap, multi-tunnelling devices in which quasiparticles retain accumulated energy through several cycles of sequential forward and back tunnelling. As a consequence, a stable non-equilibrium distribution is established, in which many quasiparticles have energies exceeding the 3Δ threshold for breaking Cooper pairs, resulting in a large excess current. By solving the system of coupled kinetic equations for quasiparticles and phonons, we have modelled the quasiparticle distribution and excess current, and have confirmed the predictions through experiments on an appropriate superconducting tunnel junction.

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