Josephson junctions in Al/InAs nanowires host Andreev bound states[1] (ABSs) and can be considered as a platform for realization of gate-tunable Andreev qubits[2-4]. An acute challenge of such architecture is to improve the coupling between ABSs and a microwave resonator. Here, we report microwave characterization of an Al/InAs nanowire weak link embedded in a superconducting loop with a lumped-element resonator patterned from a thin NbTiN film with high kinetic inductance. We demonstrate that our approach offers a compact geometry, a high resonator impedance above 12 kOhm and remarkably large coupling rates between ABSs and the resonator mode reaching the value of 1.2 GHz. This result provides a basis for exploration of strongly correlated light-matter states in cQED.
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