A superconductor free of quasiparticles for seconds

TL;DR

This paper reports the first experimental observation of a superconductor remaining completely free of quasiparticles for up to seconds, achieved by real-time monitoring of charge tunneling, which could enhance superconducting device performance.

Contribution

It demonstrates a superconductor free of quasiparticles for seconds and investigates the origins of nonequilibrium quasiparticles, a significant advancement over previous ultra-low quasiparticle density efforts.

Findings

Superconductor remained quasiparticle-free for up to seconds.

Quasiparticle excitations are caused by random Cooper pair breaking events.

Decay of breaking rate over weeks rules out cosmic or radioactive sources.

Abstract

Superconducting devices, based on the Cooper pairing of electrons, play an important role in existing and emergent technologies, ranging from radiation detectors to quantum computers. Their performance is limited by spurious quasiparticle excitations formed from broken Cooper pairs. Efforts to achieve ultra-low quasiparticle densities have reached time-averaged numbers of excitations on the order of one in state-of-the-art devices. However, the dynamics of the quasiparticle population as well as the time scales for adding and removing individual excitations remain largely unexplored. Here, we experimentally demonstrate a superconductor completely free of quasiparticles for periods lasting up to seconds. We monitor the quasiparticle number on a mesoscopic superconductor in real time by measuring the charge tunneling to a normal metal contact. Quiet, excitation-free periods are interrupted by random-in-time Cooper pair breaking events, followed by a burst of charge tunneling within a millisecond. Our results demonstrate the possibility of operating devices without quasiparticles with potentially improved performance. In addition, our experiment probes the origins of nonequilibrium quasiparticles in our device; the decay of the Cooper pair breaking rate over several weeks following the initial cooldown rules out processes arising from cosmic or long-lived radioactive sources.