Quantum interference of single photons with distinguishable paths

Yunxiao Zhang; Liang Cui; Xueshi Guo; Wen Zhao; Xuan Tang; Xiaoying Li; Z. Y. Ou

doi:10.1364/CLEO_FS.2025.FF107_4

Quantum interference of single photons with distinguishable paths

Yunxiao Zhang
, Liang Cui
, Xueshi Guo
, Wen Zhao
, Xuan Tang
, Xiaoying Li^*
, Z. Y. Ou^*

^*Corresponding author for this work

Department of Physics

Research output: Chapters, Conference Papers, Creative and Literary Works › RGC 32 - Refereed conference paper (with host publication) › peer-review

Abstract

We report a single-photon interference experiment where the interfering paths are in orthogonal polarization and temporal modes. This is achieved through amplitude measurement by homodyne detection so that interference occurs in photo-current after measurement. © Optica Publishing Group 2025.

Original language	English
Title of host publication	CLEO 2025
Publisher	Optica Publishing Group
Number of pages	2
ISBN (Print)	978-1-957171-50-0
DOIs	https://doi.org/10.1364/CLEO_FS.2025.FF107_4
Publication status	Published - May 2025
Event	CLEO: Fundamental Science (CLEO 2025) - Long Beach, United States Duration: 4 May 2025 → 9 May 2025

Publication series

Name	Technical Digest Series

Conference

Conference	CLEO
Place	United States
City	Long Beach
Period	4/05/25 → 9/05/25

Funding

The work is supported in part by the National Natural Science Foundation of China (Grant Nos. 12004279, and 12074283) and by City University of Hong Kong (Project No.9610522) and the General Research Fund from Hong Kong Research Grants Council (No.11307823).

RGC Funding Information

RGC-funded

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10.1364/CLEO_FS.2025.FF107_4

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@inproceedings{033ba45f41784a83889449e825a6b4cc,

title = "Quantum interference of single photons with distinguishable paths",

abstract = "We report a single-photon interference experiment where the interfering paths are in orthogonal polarization and temporal modes. This is achieved through amplitude measurement by homodyne detection so that interference occurs in photo-current after measurement. {\textcopyright} Optica Publishing Group 2025.",

author = "Yunxiao Zhang and Liang Cui and Xueshi Guo and Wen Zhao and Xuan Tang and Xiaoying Li and Ou, \{Z. Y.\}",

year = "2025",

month = may,

doi = "10.1364/CLEO\_FS.2025.FF107\_4",

language = "English",

isbn = "978-1-957171-50-0",

series = "Technical Digest Series",

publisher = "Optica Publishing Group",

booktitle = "CLEO 2025",

address = "United States",

note = "CLEO : Fundamental Science (CLEO 2025) ; Conference date: 04-05-2025 Through 09-05-2025",

}

TY - GEN

T1 - Quantum interference of single photons with distinguishable paths

AU - Zhang, Yunxiao

AU - Cui, Liang

AU - Guo, Xueshi

AU - Zhao, Wen

AU - Tang, Xuan

AU - Li, Xiaoying

AU - Ou, Z. Y.

PY - 2025/5

Y1 - 2025/5

N2 - We report a single-photon interference experiment where the interfering paths are in orthogonal polarization and temporal modes. This is achieved through amplitude measurement by homodyne detection so that interference occurs in photo-current after measurement. © Optica Publishing Group 2025.

AB - We report a single-photon interference experiment where the interfering paths are in orthogonal polarization and temporal modes. This is achieved through amplitude measurement by homodyne detection so that interference occurs in photo-current after measurement. © Optica Publishing Group 2025.

UR - https://www.scopus.com/pages/publications/105033549960

UR - https://www.scopus.com/record/pubmetrics.uri?eid=2-s2.0-105033549960&origin=recordpage

U2 - 10.1364/CLEO_FS.2025.FF107_4

DO - 10.1364/CLEO_FS.2025.FF107_4

M3 - RGC 32 - Refereed conference paper (with host publication)

SN - 978-1-957171-50-0

T3 - Technical Digest Series

BT - CLEO 2025

PB - Optica Publishing Group

T2 - CLEO

Y2 - 4 May 2025 through 9 May 2025

ER -

Quantum interference of single photons with distinguishable paths

Abstract

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GRF: Integrated Sources of Quantum States and On-chip Quantum Interferometers

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Quantum interference of single photons with distinguishable paths

Abstract

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Funding

RGC Funding Information

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GRF: Integrated Sources of Quantum States and On-chip Quantum Interferometers

Cite this