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Observation of on- and off-resonant interaction between a solid-state spin qubit and a superconducting resonator

Published 25 Dec 2024 in cond-mat.mes-hall | (2412.18896v1)

Abstract: Hybrid systems consisting of multiple materials with distinct physical properties and tunable interactions provide a promising route for fulfilling transformative quantum innovations. Solid-state spin qubits and superconducting circuits stand out as leading candidates in this context due to their complementary device performance and quantum mechanical properties. Here, we report experimental integration of a single nitrogen-vacancy (NV) spin qubit and an on-chip superconducting resonator for realizing multimodal quantum applications. Specifically, we have observed superconductivity enhanced NV spin relaxation, which shows a similar Hebel-Slichter peak feature around the phase transition point. In the coherent interaction regime, we show that the superconducting resonator mode is capable of exciting NV Rabi oscillations. Taking advantage of scanning NV magnetometry, we further visualized microscopic electromagnetic behaviors of the superconducting resonator, revealing the formation and evolution of superconducting vortices at the nanoscale. Our results highlight the potential of harnessing NV centers and superconducting circuits for designing hybrid systems to advance the burgeoning quantum revolution. The current study will also open a new pathway to test and evaluate miniaturized superconducting electronics for their future design and performance improvements.

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