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Autori principali: Suresh, Deepak A., Robicheaux, F.
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2503.16624
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author Suresh, Deepak A.
Robicheaux, F.
author_facet Suresh, Deepak A.
Robicheaux, F.
contents We investigate the photon statistics of light emitted from a system of collectively interacting dipoles in the low-intensity regime, incorporating double-excitation states to capture beyond-single-excitation effects. By analyzing the eigenstates of the double-excitation manifold, we establish their connection to the accessible single-excitation eigenmodes and investigate the role of decay rates in shaping the zero-time-delay photon correlation function $g^{(2)}(τ= 0)$ under different detection schemes. The photon emission statistics can be arbitrarily controlled by interfering two beams of light that selectively address orthogonal eigenmodes. This can act as a tunable nonlinearity that enables both enhancement or suppression of two-photon emission.
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publishDate 2025
record_format arxiv
spellingShingle Emission photon statistics in collectively interacting dipole atom arrays in the low-intensity limit
Suresh, Deepak A.
Robicheaux, F.
Quantum Physics
We investigate the photon statistics of light emitted from a system of collectively interacting dipoles in the low-intensity regime, incorporating double-excitation states to capture beyond-single-excitation effects. By analyzing the eigenstates of the double-excitation manifold, we establish their connection to the accessible single-excitation eigenmodes and investigate the role of decay rates in shaping the zero-time-delay photon correlation function $g^{(2)}(τ= 0)$ under different detection schemes. The photon emission statistics can be arbitrarily controlled by interfering two beams of light that selectively address orthogonal eigenmodes. This can act as a tunable nonlinearity that enables both enhancement or suppression of two-photon emission.
title Emission photon statistics in collectively interacting dipole atom arrays in the low-intensity limit
topic Quantum Physics
url https://arxiv.org/abs/2503.16624