Single-photon detectors on arbitrary photonic substrates
Abstract
Detecting non-classical light is a central requirement for photonics-based quantum technologies. Unrivaled high efficiencies and low dark counts have positioned superconducting nanowire single photon detectors (SNSPDs) as the leading detector technology for fiber and integrated photonic applications. However, a central challenge lies in their integration within photonic integrated circuits regardless of material platform or surface topography. Here, we introduce a method based on transfer printing that overcomes these constraints and allows for the integration of SNSPDs onto arbitrary photonic substrates. We prove this by integrating SNSPDs and showing through-waveguide single-photon detection in commercially manufactured silicon and lithium niobate on insulator integrated photonic circuits. Our method eliminates bottlenecks to the integration of high-quality single-photon detectors, turning them into a versatile and accessible building block for scalable quantum information processing.
Keywords
Cite
@article{arxiv.2409.08412,
title = {Single-photon detectors on arbitrary photonic substrates},
author = {Max Tao and Hugo Larocque and Samuel Gyger and Marco Colangelo and Owen Medeiros and Ian Christen and Hamed Sattari and Gregory Choong and Yves Petremand and Ivan Prieto and Yang Yu and Stephan Steinhauer and Gerald L. Leake and Daniel J. Coleman and Amir H. Ghadimi and Michael L. Fanto and Val Zwiller and Dirk Englund and Carlos Errando-Herranz},
journal= {arXiv preprint arXiv:2409.08412},
year = {2025}
}
Comments
11 pages, 12 figures