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Contactless cavity sensing of superfluid stiffness in atomically thin 4Hb-TaS₂

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arxiv 2510.25124 v2 pith:EEIXY2C6 submitted 2025-10-29 cond-mat.supr-con cond-mat.mes-hallcond-mat.str-el

Contactless cavity sensing of superfluid stiffness in atomically thin 4Hb-TaS₂

classification cond-mat.supr-con cond-mat.mes-hallcond-mat.str-el
keywords stiffnessphasesuperconductingtechniqueatomicallybrokenhb-tasmicrowave
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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The exceptional tunability of two-dimensional van der Waals materials offers unique opportunities for exploring novel superconducting phases. However, in such systems, the measurement of superfluid phase stiffness, a fundamental property of a superconductor, is challenging because of the mesoscopic sample size. Here, we introduce a contact-free technique for probing the electrodynamic response, and thereby the phase stiffness, of atomically thin superconductors using on-chip superconducting microwave resonators. We demonstrate this technique on 4Hb-TaS$_2$, a van der Waals superconductor whose gap structure under broken mirror symmetry is under debate. In our cleanest few-layer device, we observe a superconducting critical temperature comparable to that of the bulk. The temperature evolution of the phase stiffness features nodeless behavior in the presence of broken mirror symmetry, inconsistent with the scenario of nodal surface superconductivity. With minimal fabrication requirements, our technique enables microwave measurements across wide ranges of two-dimensional superconductors.

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