作者
Boris Korzh, Qing-Yuan Zhao, Jason P Allmaras, Simone Frasca, Travis M Autry, Eric A Bersin, Andrew D Beyer, Ryan M Briggs, Bruce Bumble, Marco Colangelo, Garrison M Crouch, Andrew E Dane, Thomas Gerrits, Adriana E Lita, Francesco Marsili, Galan Moody, Cristián Peña, Edward Ramirez, Jake D Rezac, Neil Sinclair, Martin J Stevens, Angel E Velasco, Varun B Verma, Emma E Wollman, Si Xie, Di Zhu, Paul D Hale, Maria Spiropulu, Kevin L Silverman, Richard P Mirin, Sae Woo Nam, Alexander G Kozorezov, Matthew D Shaw, Karl K Berggren
发表日期
2020/4
期刊
Nature Photonics
卷号
14
期号
4
页码范围
250-255
出版商
Nature Publishing Group
简介
Improvements in temporal resolution of single-photon detectors enable increased data rates and transmission distances for both classical and quantum optical communication systems, higher spatial resolution in laser ranging, and observation of shorter-lived fluorophores in biomedical imaging. In recent years, superconducting nanowire single-photon detectors (SNSPDs) have emerged as the most efficient time-resolving single-photon-counting detectors available in the near-infrared, but understanding of the fundamental limits of timing resolution in these devices has been limited due to a lack of investigations into the timescales involved in the detection process. We introduce an experimental technique to probe the detection latency in SNSPDs and show that the key to achieving low timing jitter is the use of materials with low latency. By using a specialized niobium nitride SNSPD we demonstrate that the system …
引用总数
201920202021202220232024397310610713264
学术搜索中的文章
B Korzh, QY Zhao, JP Allmaras, S Frasca, TM Autry… - Nature Photonics, 2020