Light interacting with atomic ensembles: collective, cooperative and mesoscopic effects
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TL;DR: In this paper, the authors review the various collective effects that occur when light interacts with an ensemble of atoms and explain why some collective effects depend on the atomic density, and others on the optical depth.
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Abstract: Cooperative scattering has been the subject of intense research in the last years. In this article, we discuss the concept of cooperative scattering from a broad perspective. We briefly review the various collective effects that occur when light interacts with an ensemble of atoms. We show that some effects that have been recently discussed in the context of ‘single-photon superradiance’, or cooperative scattering in the linear-optics regime, can also be explained by ‘standard optics’, i.e. using macroscopic quantities such as the susceptibility or the diffusion coefficient. We explain why some collective effects depend on the atomic density, and others on the optical depth. In particular, we show that, for a large and dilute atomic sample driven by a far-detuned laser, the decay of the fluorescence, which exhibits superradiant and subradiant dynamics, depends only on the on-resonance optical depth. We also discuss the link between concepts that are independently studied in the quantum-optics community an...
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Citations
Superfluorescence from lead halide perovskite quantum dot superlattices
Gabriele Rainò,Gabriele Rainò,Gabriele Rainò,Michael Becker,Michael Becker,Maryna I. Bodnarchuk,Rainer F. Mahrt,Maksym V. Kovalenko,Maksym V. Kovalenko,Thilo Stöferle +9 more
TL;DR: In this article, it was shown that caesium lead halide perovskite (CsPbX3, X = Cl, Br = Br) nanocrystals exhibit key signatures of superfluorescence, such as dynamically red-shifted emission with more than 20-fold accelerated radiative decay, extension of first-order coherence time by more than a factor of four, photon bunching, and delayed emission pulses with Burnham-Chiao ringing behaviour.
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TL;DR: In this article , a wide range of quantum systems and their description by theoretical methods and insights from different fields of physics are presented, including quantum teleportation, quantum entanglement, and photon bounding.
Collective Lamb Shift of a Nanoscale Atomic Vapor Layer within a Sapphire Cavity.
T. Peyrot,Yvan R. P. Sortais,Antoine Browaeys,Armen Sargsyan,David Sarkisyan,James Keaveney,Ifan G. Hughes,Charles S. Adams +7 more
TL;DR: In this article, the authors measured the near-resonant transmission of light through a dense medium of potassium vapor confined in a cell with nanometer thickness in order to investigate the origin and validity of the collective Lamb shift.
81
Collective Shift in Resonant Light Scattering by a One-Dimensional Atomic Chain
Antoine Glicenstein,G. Ferioli,Nikola Šibalić,Ludovic Brossard,Igor Ferrier-Barbut,Antoine Browaeys +5 more
TL;DR: This work experimentally studies resonant light scattering by a one-dimensional randomly filled chain of cold two-level atoms and compares the measurement to a mean-field, nonlinear coupled-dipole model accounting for the saturation of the response of a single atom.
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Superatom Picture of Collective Nonclassical Light Emission and Dipole Blockade in Atom Arrays.
TL;DR: It is shown that two-time, second-order correlations of scattered photons from planar arrays and chains of atoms display nonclassical features that can be described by a superatom picture of the canonical single-atom g_{2}(τ) resonance fluorescence result.
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