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Collective effects in the photon statistics of thermal atomic ensembles [dataset] Open Access

We investigate the collective scattering of coherent light from a thermal alkali-metal vapor with temperatures ranging from 350 to 450 K, corresponding to average atomic spacings between 0.7λ and 0.1λ. We develop a theoretical model treating the atomic ensemble as coherent, interacting, radiating dipoles. We show that the two-time second-order correlation function of a thermal ensemble can be described by an average of randomly positioned atomic pairs. Our model illustrates good agreement with the experimental results. Furthermore, we show how fine-tuning of the experimental parameters may make it possible to explore several photon statistics regimes.

Descriptions

Resource type

Dataset

Contributors

Creator: Ribeiro, Sofia ¹

¹ Durham University, United Kingdom

Funder

Engineering and Physical Sciences Research Council

Research methods

Numerical modelling

Other description

Keyword

Plotting routines
Thermal vapours
Collective scattering

Subject

Metal vapors
Scattering (Physics)

Location

Language

Cited in

Identifier

ark:/32150/r2cz30ps686
doi:10.15128/r2cz30ps686

Rights

Creative Commons Attribution 4.0 International (CC BY)

Publisher

Durham University

Date Created

File Details

Depositor

S.I.I. De Carvalho Ribeiro

Date Uploaded

5 May 2021, 14:05:34

Date Modified

5 May 2021, 15:05:14

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Characterization

File format: zip (ZIP Format)

Mime type: application/zip

File size: 36377

Last modified: 2021:05:05 15:18:39+01:00

Filename: FiguresManuscript.zip

Original checksum: 169015ef43768c679ea2ec924b2ae460