CaltechAUTHORS
Published February 20, 2023 | Published
Journal Article Open

High-speed detection of 1550  nm single photons with superconducting nanowire detectors

Craiciu, Ioana1 ORCID icon
Korzh, Boris1 ORCID icon
Beyer, Andrew D.1 ORCID icon
Mueller, Andrew2, 1 ORCID icon
Allmaras, Jason P.1 ORCID icon
Narváez, Lautaro2 ORCID icon
Spiropulu, Maria2 ORCID icon
Bumble, Bruce1 ORCID icon
Lehner, Thomas3
Wollman, Emma E.1 ORCID icon
Shaw, Matthew D.1 ORCID icon
  • 1. ROR icon Jet Propulsion Lab
  • 2. ROR icon California Institute of Technology
  • 3. Dotfast Solutions

Abstract

Superconducting nanowire single-photon detectors are a key technology for quantum information and science due to their high efficiency, low timing jitter, and low dark counts. In this work, we present a detector for single 1550 nm photons with up to 78% detection efficiency, timing jitter below 50 ps FWHM, 158 counts/s dark count rate, as well as a maximum count rate of 1.5 giga-counts/s at 3 dB compression. The PEACOQ detector (Performance-Enhanced Array for Counting Optical Quanta) comprises a linear array of 32 straight superconducting niobium nitride nanowires that span the mode of an optical fiber. This design supports high count rates with minimal penalties for detection efficiency and timing jitter. We show how these trade-offs can be mitigated by implementing independent readout for each nanowire and by using a temporal walk correction technique to reduce count-rate dependent timing jitter. These detectors make quantum communication practical on a 10 GHz clock.

Copyright and License

© 2023 Optica Publishing Group under the terms of the Optica Open Access Publishing Agreement

Funding

National Aeronautics and Space Administration; Defense Sciences Office, DARPA.

Acknowledgement

The research was performed at the Jet Propulsion Laboratory, California Institute of Technology, under contract with NASA. We thank Ryan Lannom for the photograph of the PEACOQ. We thank Gregor Taylor for his helpful comments on the manuscript. We acknowledge funding from NASA SCaN and DARPA DSO, through the DETECT and Invisible
Headlights programs

Supplemental Material

See Supplement 1 for supporting content

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