Waveguide-integrated single-photon detectors with high system detection efficiency and photon number resolution

AbstractThe challenges faced in a comparison of measuring the detection efficiency of free-running InGaAs/InP single-photon avalanche detectors (InGaAs/InP SPAD) were studied by four European National Metrology Institutes (NMIs) meeting at a single laboratory. The main purpose of this study is to develop a trustable measurement technique and to provide a snapshot of the methods used by the four NMIs for measuring such photon-counting detectors at telecom wavelengths in order to establish proper procedures for characterising such devices. The detection efficiency measurements were performed using different experimental setups and reference standards with independent traceability chains at the wavelength of 1550 nm. A dedicated model to correct the dead time and dark count effects on the SPAD’s free-running counting process was developed, allowing the correct value of the photon rate impinging on the detector to be recovered from simple ratemeter measurements. The detection efficiency was measured for mean photon number per pulse between 0.01 and 2.4, corresponding to photon rates between approximately 1100 photon/s and 193,000 photon/s, respectively. We found that the measured values reported by the participants are all consistent within the stated uncertainties, proving the consistency of the measurement approach developed.

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Superconducting Nanowire Single Photon Detectors with High System Detection Efficiency at Telecom Wavelengths

CLEO: 2013 ◽

10.1364/cleo_qels.2013.jth2a.103 ◽

2013 ◽

Cited By ~ 1

Author(s):

F. Marsili ◽

V. B. Verma ◽

J. A. Stern ◽

S. Harrington ◽

A. E. Lita ◽

...

Keyword(s):

Detection Efficiency ◽

Single Photon ◽

Photon Detectors ◽

Single Photon Detectors ◽

High System ◽

Superconducting Nanowire

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Design and implementation of silicon single-photon avalanche photodiode modeling tool for QKD systems

International Journal of Electrical and Computer Engineering (IJECE) ◽

10.11591/ijece.v11i5.pp3870-3881 ◽

2021 ◽

Vol 11 (5) ◽

pp. 3870

Author(s):

Adil Fadhil Mushatet ◽

Ahmed Ismael Khaleel ◽

Shelan Khasro Tawfeeq

Keyword(s):

Detection Efficiency ◽

Single Photon ◽

Photon Number ◽

Simulated Data ◽

Avalanche Photodiode ◽

Single Photon Detection ◽

Photon Detectors ◽

Photon Detection ◽

Modeling Process ◽

Single Photon Detectors

Single-photon detection concept is the most crucial factor that determines the performance of quantum key distribution (QKD) systems. In this paper, a simulator with time domain visualizers and configurable parameters using continuous time simulation approach is presented for modeling and investigating the performance of single-photon detectors operating in Gieger mode at the wavelength of 830 nm. The widely used C30921S silicon avalanche photodiode was modeled in terms of avalanche pulse, the effect of experiment conditions such as excess voltage, temperature and average photon number on the photon detection efficiency, dark count rate and afterpulse probability. This work shows a general repeatable modeling process for significant performance evaluation. The most remarkable result emerged from the simulated data generated and detected by commercial devices is that the modeling process provides guidance for single-photon detectors design and characterization. The validation and testing results of the single-photon avalanche detectors (SPAD) simulator showed acceptable results with the theoretical and experimental results reported in related references and the device's data sheets.

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Photon number resolvability of multi-pixel superconducting nanowire single photon detectors using a single flux quantum circuit

Chinese Physics B ◽

10.1088/1674-1056/ac398a ◽

2021 ◽

Author(s):

Hou-Rong Zhou ◽

Kun-Jie Cheng ◽

Jie Ren ◽

Li-Xing You ◽

Li-Liang Ying ◽

...

Keyword(s):

Detection Efficiency ◽

Single Photon ◽

Photon Number ◽

Functional Verification ◽

Cooling Power ◽

Single Photons ◽

Flux Quantum ◽

Photon Detectors ◽

Single Photon Detectors ◽

Superconducting Nanowire

Abstract Superconducting nanowire single-photon detectors (SNSPDs) are typical switching devices capable of detecting single photons with almost 100% detection efficiency. However, they cannot determine the exact number of incident photons during a detection event. Multi-pixel SNSPDs employing multiple read-out channels can provide photon number resolvability (PNR), but they require increased cooling power and costly multi-channel electronic systems. In this work, a single-flux quantum (SFQ) circuit is employed, and PNR based on multi-pixel SNSPDs is successfully demonstrated. A multi-input magnetically coupled DC/SFQ converter (MMD2Q) circuit with a mutual inductance M is used to combine and record signals from a multi-pixel SNSPD device. The designed circuit is capable of discriminating the amplitude of the combined signals with an accuracy of Φ 0/M. By employing the MMD2Q circuit, the discrimination of up to 40 photons can be simulated. A 4-parallel-input MMD2Q circuit is fabricated, and a PNR of 3 is successfully demonstrated for an SNSPD array with one channel reserved for the functional verification. The results confirm that an MMD2Q circuit is an effective tool for implementing PNR with multi-pixel SNSPDs.

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