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arxiv: 0806.4171 · v1 · submitted 2008-06-25 · ❄️ cond-mat.supr-con · cond-mat.mes-hall· quant-ph

Quantum analysis of a nonlinear microwave cavity-embedded dc SQUID displacement detector

classification ❄️ cond-mat.supr-con cond-mat.mes-hallquant-ph
keywords squidmicrowavedetectordisplacementloopnonlinearquantumresonator
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We carry out a quantum analysis of a dc SQUID mechanical displacement detector, comprising a SQUID with mechanically compliant loop segment, which is embedded in a microwave transmission line resonator. The SQUID is approximated as a nonlinear, current dependent inductance, inducing an external flux tunable, nonlinear Duffing self-interaction term in the microwave resonator mode equation. Motion of the compliant SQUID loop segment is transduced inductively through changes in the external flux threading SQUID loop, giving a ponderomotive, radiation pressure type coupling between the microwave and mechanical resonator modes. Expressions are derived for the detector signal response and noise, and it is found that a soft-spring Duffing self-interaction enables a closer approach to the displacement detection standard quantum limit, as well as cooling closer to the ground state.

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