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Detecting single infrared photons toward optimal system detection efficiency

Peng Hu, Hao Li, Lixing You, Heqing Wang, You Xiao, Jia Huang, Xiaoyan Yang, Weijun Zhang, Zhen Wang, Xiaoming Xie

2020Optics Express143 citationsDOIOpen Access PDF

Abstract

Superconducting nanowire single-photon detector (SNSPD) with near-unity system efficiency is a key enabling, but still elusive, technology for numerous quantum fundamental theory verifications and quantum information applications. The key challenge is to have both a near-unity photon-response probability and absorption efficiency simultaneously for the meandered nanowire with a finite filling ratio, which is more crucial for NbN than other superconducting materials (e.g., WSi) with lower transition temperatures. Here, we overcome the above challenge and produce NbN SNSPDs with a record system efficiency by replacing a single-layer nanowire with twin-layer nanowires on a dielectric mirror. The detector at 0.8 K shows a maximal system detection efficiency (SDE) of 98% at 1590 nm and a system efficiency of over 95% in the wavelength range of 1530-1630 nm. Moreover, the detector at 2.1 K demonstrates a maximal SDE of 95% at 1550 nm using a compacted two-stage cryocooler. This type of detector also shows the robustness against various parameters, such as the geometrical size of the nanowire and the spectral bandwidth, enabling a high yield of 73% (36%) with an SDE of >80% (90%) at 2.1 K for 45 detectors fabricated in the same run. These SNSPDs made of twin-layer nanowires are of important practical significance for batch production.

Topics & Concepts

NanowireDetectorQuantum efficiencyMaterials scienceRobustness (evolution)OptoelectronicsOpticsPhotonPhoton countingSuperconductivityWavelengthAbsorption (acoustics)DielectricPhotonicsQuantumQuantum informationInfraredPhysicsQuantum channelPhotodetectorAttenuation coefficientRange (aeronautics)Quantum opticsTransition edge sensorQuantum Information and CryptographyMechanical and Optical ResonatorsDiamond and Carbon-based Materials Research
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