Indistinguishability of Remote Quantum-Dot-Cavity Single-Photon Sources

Mathias Pont; Stephen C. Wein; Ilse Maillette de Buy Wenniger; Valentin Guichard; Nathan Coste; Abdelmounaim Harouri; Aristide Lemaître; Isabelle Sagnes; Loïc Lanco; Nadia Belabas; Niccolo Somaschi; Sarah E. Thomas; Pascale Senellart

doi:10.1021/acs.nanolett.5c01560

Indistinguishability of Remote Quantum-Dot-Cavity Single-Photon Sources

Mathias Pont
, Stephen C. Wein
, Ilse Maillette de Buy Wenniger
, Valentin Guichard
, Nathan Coste
, Abdelmounaim Harouri
, Aristide Lemaître
, Isabelle Sagnes
, Loïc Lanco
, Nadia Belabas
, Niccolo Somaschi
, Sarah E. Thomas
, Pascale Senellart

Centre de Nanosciences et de Nanotechnologies
Quandela
Imperial College London
University of Technology Sydney
Centre national de la recherche scientifique

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

Abstract

Generating identical photons from remote emitter-based bright single-photon sources is an important step for scaling up optical quantum technologies. Here, we study the Hong–Ou–Mandel interference of photons emitted from remote sources based on semiconductor quantum dots (QDs). We make use of a deterministic fabrication technique to position the QDs in a spectrally resonant micropillar cavity and fine-tune their operation wavelength electrically. In doing so, we can match four pairs of sources between five distinct sources, study them under various excitation schemes, and measure their degree of indistinguishability. We demonstrate remote indistinguishabiltity between 44 ± 1% and 69 ± 1% depending on the pair of sources and excitation conditions, record values for QDs in cavities. The relative contribution of pure dephasing and spectral diffusion is then analyzed, revealing that the remaining distinguishability is mostly due to low-frequency noise.

Original language	English
Pages (from-to)	13979-13987
Number of pages	9
Journal	Nano Letters
Volume	25
Issue number	38
DOIs	https://doi.org/10.1021/acs.nanolett.5c01560
Publication status	Published - 24 Sept 2025
Externally published	Yes

Keywords

Hong−Ou−Mandel interference
indistinguishable photons
quantum-dot single-photon sources
quantum-dot-cavity devices

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10.1021/acs.nanolett.5c01560

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title = "Indistinguishability of Remote Quantum-Dot-Cavity Single-Photon Sources",

abstract = "Generating identical photons from remote emitter-based bright single-photon sources is an important step for scaling up optical quantum technologies. Here, we study the Hong–Ou–Mandel interference of photons emitted from remote sources based on semiconductor quantum dots (QDs). We make use of a deterministic fabrication technique to position the QDs in a spectrally resonant micropillar cavity and fine-tune their operation wavelength electrically. In doing so, we can match four pairs of sources between five distinct sources, study them under various excitation schemes, and measure their degree of indistinguishability. We demonstrate remote indistinguishabiltity between 44 ± 1\% and 69 ± 1\% depending on the pair of sources and excitation conditions, record values for QDs in cavities. The relative contribution of pure dephasing and spectral diffusion is then analyzed, revealing that the remaining distinguishability is mostly due to low-frequency noise.",

keywords = "Hong−Ou−Mandel interference, indistinguishable photons, quantum-dot single-photon sources, quantum-dot-cavity devices",

author = "Mathias Pont and Wein, \{Stephen C.\} and \{Maillette de Buy Wenniger\}, Ilse and Valentin Guichard and Nathan Coste and Abdelmounaim Harouri and Aristide Lema{\^i}tre and Isabelle Sagnes and Lo{\"i}c Lanco and Nadia Belabas and Niccolo Somaschi and Thomas, \{Sarah E.\} and Pascale Senellart",

note = "Publisher Copyright: {\textcopyright} 2025 The Authors. Published by American Chemical Society",

year = "2025",

month = sep,

day = "24",

doi = "10.1021/acs.nanolett.5c01560",

language = "English",

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T1 - Indistinguishability of Remote Quantum-Dot-Cavity Single-Photon Sources

AU - Pont, Mathias

AU - Wein, Stephen C.

AU - Maillette de Buy Wenniger, Ilse

AU - Guichard, Valentin

AU - Coste, Nathan

AU - Harouri, Abdelmounaim

AU - Lemaître, Aristide

AU - Sagnes, Isabelle

AU - Lanco, Loïc

AU - Belabas, Nadia

AU - Somaschi, Niccolo

AU - Thomas, Sarah E.

AU - Senellart, Pascale

PY - 2025/9/24

Y1 - 2025/9/24

N2 - Generating identical photons from remote emitter-based bright single-photon sources is an important step for scaling up optical quantum technologies. Here, we study the Hong–Ou–Mandel interference of photons emitted from remote sources based on semiconductor quantum dots (QDs). We make use of a deterministic fabrication technique to position the QDs in a spectrally resonant micropillar cavity and fine-tune their operation wavelength electrically. In doing so, we can match four pairs of sources between five distinct sources, study them under various excitation schemes, and measure their degree of indistinguishability. We demonstrate remote indistinguishabiltity between 44 ± 1% and 69 ± 1% depending on the pair of sources and excitation conditions, record values for QDs in cavities. The relative contribution of pure dephasing and spectral diffusion is then analyzed, revealing that the remaining distinguishability is mostly due to low-frequency noise.

AB - Generating identical photons from remote emitter-based bright single-photon sources is an important step for scaling up optical quantum technologies. Here, we study the Hong–Ou–Mandel interference of photons emitted from remote sources based on semiconductor quantum dots (QDs). We make use of a deterministic fabrication technique to position the QDs in a spectrally resonant micropillar cavity and fine-tune their operation wavelength electrically. In doing so, we can match four pairs of sources between five distinct sources, study them under various excitation schemes, and measure their degree of indistinguishability. We demonstrate remote indistinguishabiltity between 44 ± 1% and 69 ± 1% depending on the pair of sources and excitation conditions, record values for QDs in cavities. The relative contribution of pure dephasing and spectral diffusion is then analyzed, revealing that the remaining distinguishability is mostly due to low-frequency noise.

KW - Hong−Ou−Mandel interference

KW - indistinguishable photons

KW - quantum-dot single-photon sources

KW - quantum-dot-cavity devices

UR - https://www.scopus.com/pages/publications/105016845061

U2 - 10.1021/acs.nanolett.5c01560

DO - 10.1021/acs.nanolett.5c01560

M3 - Article

C2 - 40931990

AN - SCOPUS:105016845061

SN - 1530-6984

VL - 25

SP - 13979

EP - 13987

JO - Nano Letters

JF - Nano Letters

IS - 38

ER -

Indistinguishability of Remote Quantum-Dot-Cavity Single-Photon Sources

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Keywords

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