Transfer-Printed Single-Photon Detectors on Arbitrary Photonic Substrates

Carlos Errando-Herranz; Carlos Errando-Herranz; Samuel Gyger; Max Tao; Marco Colangelo; Ian Christen; Hugo Larocque; Hamed Sattari; Gregory Choong; Yves Petremand; Ivan Prieto; Yang Yu; Stephan Steinhauer; Amir H. Ghadimi; Val Zwiller; Dirk Englund

doi:10.1364/CLEO_FS.2023.FM2E.5

CLEO 2023
Technical Digest Series (Optica Publishing Group, 2023),
paper FM2E.5
•https://doi.org/10.1364/CLEO_FS.2023.FM2E.5

Transfer-Printed Single-Photon Detectors on Arbitrary Photonic Substrates

Carlos Errando-Herranz, Samuel Gyger, Max Tao, Marco Colangelo, Ian Christen, Hugo Larocque, Hamed Sattari, Gregory Choong, Yves Petremand, Ivan Prieto, Yang Yu, Stephan Steinhauer, Amir H. Ghadimi, Val Zwiller, and Dirk Englund

CLEO: Fundamental Science 2023

San Jose, CA United States
7–12 May 2023
ISBN: 978-1-957171-25-8

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Quantum Light Detectors (FM2E)

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C. Errando-Herranz, S. Gyger, M. Tao, M. Colangelo, I. Christen, H. Larocque, H. Sattari, G. Choong, Y. Petremand, I. Prieto, Y. Yu, S. Steinhauer, A. H. Ghadimi, V. Zwiller, and D. Englund, "Transfer-Printed Single-Photon Detectors on Arbitrary Photonic Substrates," in CLEO 2023, Technical Digest Series (Optica Publishing Group, 2023), paper FM2E.5.

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Abstract

We demonstrate the integration of superconducting single-photon detectors onto arbitrary photonic substrates via transfer printing. Using this method, we show single-photon detection in a lithium niobate on insulator photonic circuit.

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