Spatial Coherence of Light in Collective Spontaneous Emission

When a quantum system is put into an excited state, it will decay back to the ground state through a process termed spontaneous emission. It is generally assumed that spontaneous emissions between different individual emitters will not be coherent with each other; to produce coherent light, one would need population inversion and stimulated emission. In this work, we show that an optically thin ensemble of 11 000 radiating atoms spontaneously organizes to produce spatially coherent light. The reason for this coherence is collective coupling of the individual emitters via Dicke superradiance and subradiance (as opposed to amplification through stimulated emission).

Automated summary

This work demonstrates that an optically thin ensemble of 11,000 radiating atoms spontaneously organizes to produce spatially coherent light through collective coupling of the individual emitters via Dicke superradiance and subradiance (as opposed to amplification through stimulated emission).