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Main Authors: Delpy, Joseph, Cardoz, Elwyn, KV, Adwaith, Fayard, Nikos, Belabas, Nadia, bretenaker, Fabien, Goldfarb, Fabienne
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2605.31262
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author Delpy, Joseph
Cardoz, Elwyn
KV, Adwaith
Fayard, Nikos
Belabas, Nadia
bretenaker, Fabien
Goldfarb, Fabienne
author_facet Delpy, Joseph
Cardoz, Elwyn
KV, Adwaith
Fayard, Nikos
Belabas, Nadia
bretenaker, Fabien
Goldfarb, Fabienne
contents We experimentally demonstrate a non-linear dependence of the spin noise variance on atomic density in a warm alkali vapor. Implementing high-bandwidth spin noise spectroscopy (SNS) near the D2 transition of rubidium, a quadratic spin noise contribution is shown to arise at high densities, in contrast with the linear dependence valid in non-interacting ensembles. This non-linear scaling is shown to crucially depend on the residual optical excitation of the vapor by the probe beam, suggesting it stems from atomic cross-correlations due to resonant dipole-dipole interaction (DDI) in the vapor. We support this claim by introducing an additional experimental protocol to quench the ddi, resulting in a suppression of both the quadratic scaling of the spin variance and the distortions of the spin noise spectrum induced by the interaction. These results extend the applications of SNS to the characterization of many-body correlations in complex quantum systems.
format Preprint
id arxiv_https___arxiv_org_abs_2605_31262
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Non-linear density scaling of spin noise reveals atomic correlations in warm vapors
Delpy, Joseph
Cardoz, Elwyn
KV, Adwaith
Fayard, Nikos
Belabas, Nadia
bretenaker, Fabien
Goldfarb, Fabienne
Quantum Physics
We experimentally demonstrate a non-linear dependence of the spin noise variance on atomic density in a warm alkali vapor. Implementing high-bandwidth spin noise spectroscopy (SNS) near the D2 transition of rubidium, a quadratic spin noise contribution is shown to arise at high densities, in contrast with the linear dependence valid in non-interacting ensembles. This non-linear scaling is shown to crucially depend on the residual optical excitation of the vapor by the probe beam, suggesting it stems from atomic cross-correlations due to resonant dipole-dipole interaction (DDI) in the vapor. We support this claim by introducing an additional experimental protocol to quench the ddi, resulting in a suppression of both the quadratic scaling of the spin variance and the distortions of the spin noise spectrum induced by the interaction. These results extend the applications of SNS to the characterization of many-body correlations in complex quantum systems.
title Non-linear density scaling of spin noise reveals atomic correlations in warm vapors
topic Quantum Physics
url https://arxiv.org/abs/2605.31262