Abstract
We propose a new operation principle for superconducting nanowire single-photon detectors (SNSPDs) enabling an efficient frequency-division multiplexing of the bias and readout signals of a large multipixel detector array. The SNSPD is part of a resonant circuit, and the microwave signal inside the device is used to bias the detector close to the critical state. Hence, an n×m pixel SNSPD array requires only two coaxial cables from room temperature to the detector ambient temperature of 4.2 K. We show the microwave characterization and single-photon response of such devices and compare the detector efficiencies with conventional dc-biased SNSPDs. Furthermore, we demonstrate the feasibility of array applications with the new operation mode in a two-pixel proof-of-principle device.
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