Detecting single infrared photons toward optimal system detection
efficiency
- URL: http://arxiv.org/abs/2009.14690v1
- Date: Wed, 30 Sep 2020 14:08:19 GMT
- Title: Detecting single infrared photons toward optimal system detection
efficiency
- Authors: Peng Hu, Hao Li, Lixing You, Heqing Wang, You Xiao, Jia Huang, Xiaoyan
Yang, Weijun Zhang, Zhen Wang, and Xiaoming Xie
- Abstract summary: Superconducting nanowire single-photon detector (SNSPD) with near-unity system efficiency is a key enabling, but still elusive technology.
Here, we 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.
- Score: 13.993435351871511
- License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
- 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 2.1K 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 2.1K for 45 detectors fabricated in the same
run. These SNSPDs made of twin-layer nanowires are of important practical
significance for batch production.
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