Pashkin, Yuri and Esmenda, Joshoua and Bailey, Ian and Laird, Edward (2025) Revealing the loss mechanisms of a 3D superconducting microwave cavity for use in a dark matter search. Arxiv.
Full text not available from this repository.Abstract
Superconducting microwave cavities have found applications in many areas including quantum computing, particle accelerators, and dark matter searches. Their extremely high quality factors translate to very narrow bandwidth, which makes them key components of sensitive detectors. In this study, we aim to understand the loss mechanisms of an aluminium cavity and how they change as the cavity material transitions from the superconducting to normal state. We found that at temperatures not much lower than the transition temperature , losses are dominated by quasiparticle excitations and are well described by the BCS theory. The exponential decrease of the quasiparticle density below results in a 1000-fold increase of the quality factor, as well as a shift of the resonance frequency due to the change of the kinetic inductance of the superconductor. At very low temperatures, losses due to two-level systems begin to dominate giving a peak in the quality factor of about 27.6 million at 130 mK. Understanding the loss mechanisms is invaluable, as the working temperature of the cavity may vary during operation regardless of its application.