Enhanced heralded single-photon source with a photon-number-resolving parallel superconducting nanowire single-photon detector

Abstract

Heralded single-photon sources (HSPS) intrinsically suffer from multiphoton emission, leading to a trade-off between the source's quality and the heralding rate. A solution to this problem is to use photon-number-resolving (PNR) detectors to filter out the heralding events where more than one photon pair is created. Here, we demonstrate the use of a high-efficiency PNR superconducting nanowire single-photon detector (SNSPD) as a heralding detector for a HSPS. By filtering out higher-order heralding detections, we can reduce the g(2)(0) of the heralded single photon by (26.6 0.2)\,\%, or alternatively, for a fixed pump power, increasing the heralding rate by a factor of 1.363 0.004 for a fixed g(2)(0). Additionally, we use the detector to directly measure the photon-number distribution of a thermal mode and calculate the unheralded g(2)(0). We show the possibility to perform g(2)(0) measurements with only one PNR detector, with the results in agreement with those obtained by more common-place techniques which use multiple threshold detectors. Our work shows that efficient PNR SNSPDs can significantly improve the performance of HSPSs and can precisely characterize them, making these detectors a useful tool for a wide range of optical quantum information protocols.