Excitonic oscillator-strength saturation dominates polariton-polariton interactions

Maxime Richard; Irénée Frérot; Sylvain Ravets; Jacqueline Bloch; Carlos Anton-Solanas; Ferdinand Claude; Yueguang Zhou; Martina Morassi; Aristide Lemaître; Iacopo Carusotto; Anna Minguzzi

doi:10.1103/r8m8-hckx

Excitonic oscillator-strength saturation dominates polariton-polariton interactions

Maxime Richard
, Irénée Frérot
, Sylvain Ravets
, Jacqueline Bloch
, Carlos Anton-Solanas
, Ferdinand Claude
, Yueguang Zhou
, Martina Morassi
, Aristide Lemaître
, Iacopo Carusotto
, Anna Minguzzi

École Polytechnique

National University of Singapore
National University of Singapore
Sorbonne Université
Centre national de la recherche scientifique
Campus Universidad Autónoma de Madrid
Università di Trento
LPMMC

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

Abstract

Exciton-polaritons in semiconductor microcavities exhibit large two-body interactions that, thanks to ever-refined nanotechnology techniques, are getting closer and closer to the quantum regime where single-photon nonlinearities start being relevant. To foster additional progress in this direction, in this work we experimentally investigate the microscopic mechanism driving polariton-polariton interactions. We measure the dispersion relation of the collective excitations that are thermally generated on top of a coherent fluid of interacting lower polaritons. By comparing the measurements with the Bogoliubov theory over both the lower- and upper-polariton branches simultaneously, we find that polariton-polariton interactions stem dominantly from a mechanism of saturation of the exciton oscillator strength.

Original language	English
Article number	L012039
Journal	Physical Review Research
Volume	8
Issue number	1
DOIs	https://doi.org/10.1103/r8m8-hckx
Publication status	Published - 1 Jan 2026

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title = "Excitonic oscillator-strength saturation dominates polariton-polariton interactions",

abstract = "Exciton-polaritons in semiconductor microcavities exhibit large two-body interactions that, thanks to ever-refined nanotechnology techniques, are getting closer and closer to the quantum regime where single-photon nonlinearities start being relevant. To foster additional progress in this direction, in this work we experimentally investigate the microscopic mechanism driving polariton-polariton interactions. We measure the dispersion relation of the collective excitations that are thermally generated on top of a coherent fluid of interacting lower polaritons. By comparing the measurements with the Bogoliubov theory over both the lower- and upper-polariton branches simultaneously, we find that polariton-polariton interactions stem dominantly from a mechanism of saturation of the exciton oscillator strength.",

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AU - Richard, Maxime

AU - Frérot, Irénée

AU - Ravets, Sylvain

AU - Bloch, Jacqueline

AU - Anton-Solanas, Carlos

AU - Claude, Ferdinand

AU - Zhou, Yueguang

AU - Morassi, Martina

AU - Lemaître, Aristide

AU - Carusotto, Iacopo

AU - Minguzzi, Anna

PY - 2026/1/1

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N2 - Exciton-polaritons in semiconductor microcavities exhibit large two-body interactions that, thanks to ever-refined nanotechnology techniques, are getting closer and closer to the quantum regime where single-photon nonlinearities start being relevant. To foster additional progress in this direction, in this work we experimentally investigate the microscopic mechanism driving polariton-polariton interactions. We measure the dispersion relation of the collective excitations that are thermally generated on top of a coherent fluid of interacting lower polaritons. By comparing the measurements with the Bogoliubov theory over both the lower- and upper-polariton branches simultaneously, we find that polariton-polariton interactions stem dominantly from a mechanism of saturation of the exciton oscillator strength.

AB - Exciton-polaritons in semiconductor microcavities exhibit large two-body interactions that, thanks to ever-refined nanotechnology techniques, are getting closer and closer to the quantum regime where single-photon nonlinearities start being relevant. To foster additional progress in this direction, in this work we experimentally investigate the microscopic mechanism driving polariton-polariton interactions. We measure the dispersion relation of the collective excitations that are thermally generated on top of a coherent fluid of interacting lower polaritons. By comparing the measurements with the Bogoliubov theory over both the lower- and upper-polariton branches simultaneously, we find that polariton-polariton interactions stem dominantly from a mechanism of saturation of the exciton oscillator strength.

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DO - 10.1103/r8m8-hckx

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JO - Physical Review Research

JF - Physical Review Research

IS - 1

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ER -

Excitonic oscillator-strength saturation dominates polariton-polariton interactions

Abstract

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