Resolving Photon Numbers Using a Superconducting Nanowire with Impedance-Matching Taper

Author(s)

Zhu, Di; Colangelo, Marco; Chen, Changchen; Korzh, Boris A; Wong, Franco NC; Shaw, Matthew D; Berggren, Karl K; ... Show more Show less

Abstract

© 2020 American Chemical Society. Time- and number-resolved photon detection is crucial for quantum information processing. Existing photon-number-resolving (PNR) detectors usually suffer from limited timing and dark-count performance or require complex fabrication and operation. Here, we demonstrate a PNR detector at telecommunication wavelengths based on a single superconducting nanowire with an integrated impedance-matching taper. The taper provides a kω load impedance to the nanowire, making the detector's output amplitude sensitive to the number of photon-induced hotspots. The prototyping device was able to resolve up to four absorbed photons with 16.1 ps timing jitter and <2 c.p.s. device dark count rate. Its exceptional distinction between single- and two-photon responses is ideal for high-fidelity coincidence counting and allowed us to directly observe bunching of photon pairs from a single output port of a Hong-Ou-Mandel interferometer. This detector architecture may provide a practical solution to applications that require high timing resolution and few-photon discrimination.

Date issued

2020

URI

https://hdl.handle.net/1721.1/135928

Department

Massachusetts Institute of Technology. Research Laboratory of Electronics

Journal

Nano Letters

Publisher

American Chemical Society (ACS)