Quantum-Enhanced Quickest Change Detection of Transmission Loss

Saikat Guha; Tiju Cherian John; Zihao Gong; Prithwish Basu

doi:10.1103/czg5-3y3d

Quantum-Enhanced Quickest Change Detection of Transmission Loss

Saikat Guha
, Tiju Cherian John
, Zihao Gong
, Prithwish Basu

Research output: Contribution to journal › Article › peer-review

Abstract

Augmenting a train of bright phase-modulated laser-light pulses of a coherent communications system with infinitesimally small quantum photons per pulse - entangled across several time bins - prepared by splitting squeezed light in a temporal-mode interferometer can dramatically enhance a homodyne receiver's ability to detect a sudden change in the channel loss, by up to a factor that is the inverse of the pre-change loss, without affecting the communications rate. We discuss the quantum limit of quickest change detection, and the problem of joint communications and change detection that our Letter opens up.

Original language	English (US)
Article number	210801
Journal	Physical review letters
Volume	135
Issue number	21
DOIs	https://doi.org/10.1103/czg5-3y3d
State	Published - Nov 21 2025

ASJC Scopus subject areas

General Physics and Astronomy

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10.1103/czg5-3y3d

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title = "Quantum-Enhanced Quickest Change Detection of Transmission Loss",

abstract = "Augmenting a train of bright phase-modulated laser-light pulses of a coherent communications system with infinitesimally small quantum photons per pulse - entangled across several time bins - prepared by splitting squeezed light in a temporal-mode interferometer can dramatically enhance a homodyne receiver's ability to detect a sudden change in the channel loss, by up to a factor that is the inverse of the pre-change loss, without affecting the communications rate. We discuss the quantum limit of quickest change detection, and the problem of joint communications and change detection that our Letter opens up.",

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AB - Augmenting a train of bright phase-modulated laser-light pulses of a coherent communications system with infinitesimally small quantum photons per pulse - entangled across several time bins - prepared by splitting squeezed light in a temporal-mode interferometer can dramatically enhance a homodyne receiver's ability to detect a sudden change in the channel loss, by up to a factor that is the inverse of the pre-change loss, without affecting the communications rate. We discuss the quantum limit of quickest change detection, and the problem of joint communications and change detection that our Letter opens up.

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Quantum-Enhanced Quickest Change Detection of Transmission Loss

Abstract

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