Electromagnetic response of disordered superconducting cavities

Frontiers in Electronic Materials Pub Date : 2023-09-20 DOI:10.3389/femat.2023.1259401

Mehdi Zarea, Hikaru Ueki, J. A. Sauls

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引用次数: 1

Abstract

We present the results for the resonant frequency shift and quality factor of disordered niobium (Nb) superconducting radio-frequency cavities driven out of equilibrium by the resonant microwave field. The theory is based on the non-equilibrium theory of superconductivity for the current response to the electromagnetic field at the vacuum–metal interface. We are able to accurately predict the observed frequency shifts with a precision of order fractions of kHz over the full temperature range 0 < T ≤ T c , including the negative frequency shift anomalies that are observed very near T c . The origin of these anomalies is shown to be the competition between the normal metal skin depth and the London penetration depth, which diverges as T→Tc− . An analytical approximation to the full current response, valid for | T − T c |≪ T c , accounts for the negative frequency shift near T c . The non-monotonic dependence of the quality factor on the quasiparticle scattering rate is related to the pair-breaking effect of disorder on the superfluid fraction and, thus, the London penetration depth.

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无序超导腔的电磁响应

本文给出了在谐振微波场驱动下失平衡无序铌超导射频腔的谐振频移和品质因子的计算结果。该理论基于超导的非平衡理论来解释真空-金属界面处电磁场对电流的响应。在整个温度范围内，我们能够以kHz的数量级精度准确地预测观测到的频移。T≤tc，包括在非常接近tc时观测到的负频移异常。这些异常的来源是正常金属表皮深度和伦敦穿透深度之间的竞争，其发散为T→Tc−。对全电流响应的解析近似，适用于| T−T c | T c，可解释T c附近的负频移。质量因子对准粒子散射率的非单调依赖性与无序对超流体分数的破对效应有关，从而与伦敦穿透深度有关。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Frontiers in Electronic Materials

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