An avalanche-photodiode-based photon-number-resolving detector

TL;DR

This paper demonstrates that avalanche photodiodes can be used as practical photon-number-resolving detectors by measuring early-stage avalanches, enabling photon counting with existing compact devices at telecom wavelengths.

Contribution

It introduces a novel technique to resolve photon numbers with avalanche photodiodes by detecting early-stage avalanches, challenging previous beliefs about their limitations.

Findings

Avalanche photodiodes can resolve photon numbers by early avalanche detection.

The method operates at telecom wavelengths without cryogenic cooling.

The device is compact, mass-manufacturable, and practical for quantum applications.

Abstract

Avalanche photodiodes are widely used as practical detectors of single photons.1 Although conventional devices respond to one or more photons, they cannot resolve the number in the incident pulse or short time interval. However, such photon number resolving detectors are urgently needed for applications in quantum computing,2-4 communications5 and interferometry,6 as well as for extending the applicability of quantum detection generally. Here we show that, contrary to current belief,3,4 avalanche photodiodes are capable of detecting photon number, using a technique to measure very weak avalanches at the early stage of their development. Under such conditions the output signal from the avalanche photodiode is proportional to the number of photons in the incident pulse. As a compact, mass-manufactured device, operating without cryogens and at telecom wavelengths, it offers a practical solution for photon number detection.