Superconducting nanowire single-photon detectors at a wavelength of 940 nm

H. Li; J. J. Wu; L. X. You; L. Zhang; Q. Guo; S. J. Chen; W. J. Zhang; X. M. Xie; X.Y. Liu; X. Y. Yang

arxiv: 1506.07921 · v1 · pith:C646H64Lnew · submitted 2015-06-25 · ❄️ cond-mat.supr-con · physics.optics· quant-ph

Superconducting nanowire single-photon detectors at a wavelength of 940 nm

W. J. Zhang , H. Li , L. X. You , Y. H. He , L. Zhang , X.Y. Liu , X. Y. Yang , J. J. Wu

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Q. Guo S. J. Chen Z. Wang X. M. Xie

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classification ❄️ cond-mat.supr-con physics.opticsquant-ph

keywords detectiondetectorsnanowiresingle-photonsuperconductingsystemwavelengthabsorptance

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We develop single-photon detectors comprising single-mode fiber-coupled superconducting nanowires, with high system detection efficiencies at a wavelength of 940 nm. The detector comprises a 6.5-nm-thick, 110-nm-wide NbN nanowire meander fabricated onto a Si substrate with a distributed Bragg reflector for enhancing the optical absorptance. We demonstrate that, via the design of a low filling factor (1/3) and active area ({\Phi} = 10 {\mu}m), the system reaches a detection efficiency of ~60% with a dark count rate of 10 Hz, a recovery time <12 ns, and a timing jitter of ~50 ps.

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Superconducting nanowire single-photon detectors at a wavelength of 940 nm

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