Spatial Coherence of Light in Collective Spontaneous Emission

ORAL

Abstract

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 emission between different individual emitters would not be coherent with each other; to produce coherent light one would need population inversion and stimulated emission. In this talk, we describe our recent experiments which show how an optically-thin ensemble of 11,000 radiating atoms spontaneously organize 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).

*Funded by NSF Quantum Leap Challenge Institute for Hybrid Quantum Architectures and Networks

Publication: D. C. Gold, P. Huft, C. Young, A. Safari, T. G. Walker, M. Saffman, and D. D. Yavuz. Spatial Coherence of Light in Collective Spontaneous Emission. In review at PRX Quantum.

Presenters

  • David Gold

    • University of Wisconsin - Madison

Authors

  • David Gold

    • University of Wisconsin - Madison

  • Preston Huft

    • University of Wisconsin - Madison

  • Akbar Safari

    • University of Wisconsin-Madison
    • University of Wisconsin - Madison

  • Thad G Walker

    • Wisconsin
    • University of Wisconsin - Madison
    • University of Wisconsin-Madison

  • Mark Saffman

    • University of Wisconsin - Madison; ColdQuanta, Inc.
    • University of Wisconsin - Madison
    • University of Wisconsin-Madison
    • University of Wisconsin - Madison and ColdQuanta, Inc.

  • Deniz D Yavuz

    • University of Wisconsin - Madison