Cooperative light scattering in any dimension
Tyler Hill, Barry C. Sanders, Hui Deng
TL;DR
This paper develops a comprehensive theory of cooperative light scattering applicable in any spatial dimension, incorporating near-field and dipole effects, and demonstrates a new experimental approach for planar collective phenomena.
Contribution
It introduces a unified theoretical framework for cooperative light scattering across different dimensions, including novel experimental methods for planar effects.
Findings
Unified theory applicable in any dimension
Inclusion of near-field and dipole effects
Experimental demonstration of planar collective effects
Abstract
We present a theory of cooperative light scattering valid in any dimension: connecting theories for an open line, open plane, and open space in the non-relativistic regime. This theory includes near-field and dipole-orientation effects, highlighting how field mode confinement controls the phenomena. We present a novel experimental implementation for planar collective effects.
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