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Main Authors: Bojer, M., Cidrim, A., Abrantes, P. P., Bachelard, R., von Zanthier, J.
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2411.17377
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author Bojer, M.
Cidrim, A.
Abrantes, P. P.
Bachelard, R.
von Zanthier, J.
author_facet Bojer, M.
Cidrim, A.
Abrantes, P. P.
Bachelard, R.
von Zanthier, J.
contents We investigate the photon statistics of an ensemble of coherently driven non-interacting two-level atoms in the weak driving regime. As it turns out, the system displays unique emission characteristics that are strongly in contrast to the emission of classical oscillating dipoles. By deriving the second-order autocorrelation function, we show that extraordinary two-photon correlations are obtained, ranging from strong antibunching to superbunching. These features are enhanced by disorder in the emitter positions, and the control parameter is the number of excitations in the system. We observe the appearance of bunching and antibunching when the light is scattered by the atoms predominantly coherently, i.e., mimicking classical Rayleigh scattering, whereas thermal photon statistics is obtained when the light is scattered via spontaneous decay, a well-known quantum effect. The underlying mechanism is the interplay between coherent scattering, which exhibits spatial fluctuations due to interference, and dissipation in the form of isotropic spontaneous decay.
format Preprint
id arxiv_https___arxiv_org_abs_2411_17377
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Light Statistics from Large Ensembles of Independent Two-level Emitters: Classical or Non-classical?
Bojer, M.
Cidrim, A.
Abrantes, P. P.
Bachelard, R.
von Zanthier, J.
Quantum Physics
We investigate the photon statistics of an ensemble of coherently driven non-interacting two-level atoms in the weak driving regime. As it turns out, the system displays unique emission characteristics that are strongly in contrast to the emission of classical oscillating dipoles. By deriving the second-order autocorrelation function, we show that extraordinary two-photon correlations are obtained, ranging from strong antibunching to superbunching. These features are enhanced by disorder in the emitter positions, and the control parameter is the number of excitations in the system. We observe the appearance of bunching and antibunching when the light is scattered by the atoms predominantly coherently, i.e., mimicking classical Rayleigh scattering, whereas thermal photon statistics is obtained when the light is scattered via spontaneous decay, a well-known quantum effect. The underlying mechanism is the interplay between coherent scattering, which exhibits spatial fluctuations due to interference, and dissipation in the form of isotropic spontaneous decay.
title Light Statistics from Large Ensembles of Independent Two-level Emitters: Classical or Non-classical?
topic Quantum Physics
url https://arxiv.org/abs/2411.17377