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arxiv: 2105.13242 · v1 · pith:MCQEX46Rnew · submitted 2021-05-27 · ⚛️ physics.optics · cond-mat.mes-hall· quant-ph

Microwave-to-optical conversion with a gallium phosphide photonic crystal cavity

classification ⚛️ physics.optics cond-mat.mes-hallquant-ph
keywords conversionmicrowavecavitycouplingcrystaldevicesgalliumintegrated
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Electrically actuated optomechanical resonators provide a route to quantum-coherent, bidirectional conversion of microwave and optical photons. Such devices could enable optical interconnection of quantum computers based on qubits operating at microwave frequencies. Here we present a novel platform for microwave-to-optical conversion comprising a photonic crystal cavity made of single-crystal, piezoelectric gallium phosphide integrated on pre-fabricated niobium circuits on an intrinsic silicon substrate. The devices exploit spatially extended, sideband-resolved mechanical breathing modes at $\sim$ 3.2 GHz, with vacuum optomechanical coupling rates of up to $g_0/2\pi \approx$ 300 kHz. The mechanical modes are driven by integrated microwave electrodes via the inverse piezoelectric effect. We estimate that the system could achieve an electromechanical coupling rate to a superconducting transmon qubit of $\sim$ 200 kHz. Our work represents a decisive step towards integration of piezoelectro-optomechanical interfaces with superconducting quantum processors.

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