Deviations from thermal light statistics in ensembles of independent two-level emitters

TL;DR

This paper studies when an ensemble of independent two-level atoms emits thermal light, deriving conditions on atom number and emission ratios, enhancing understanding of thermal light generation without interactions.

Contribution

It identifies specific conditions under which independent two-level atoms produce thermal light statistics, extending the understanding of non-interacting emitter ensembles.

Findings

Conditions for thermal light emission derived for different correlation orders.

Validity of conditions analyzed for pure and mixed atomic states.

Provides criteria for thermal light generation in non-interacting atomic ensembles.

Abstract

We investigate the light statistics of an ensemble of independent motionless two-level atoms in a product state. We identify the conditions under which the cold atomic ensemble emits thermal light statistics characterized by the Gaussian Moment Theorem. For the theorem to hold, we derive for each correlation order two conditions on the atom number and the ratio of coherent to incoherent light emission. We further discuss their validity for atoms either in a pure or mixed state. Our results contribute to the understanding of the generation of thermal light by two-level atoms without interactions among the emitters.