We report a time-resolved study of collective emission in dense ensembles of two-level atoms. We compare, on the same sample, the buildup of superradiance and subradiance from the ensemble when driven by a strong laser. This allows us to measure the dynamics of the population of superradiant and subradiant states as a function of time. In particular, we demonstrate the buildup in time of subradiant states through superradiant dynamics. This illustrates the dynamics of the many-body density matrix of superradiant ensembles of two-level atoms when departing from the ideal conditions of Dicke superradiance, in which symmetry forbids the population of subradiant states.
From superradiance to subradiance: exploring the many-body Dicke ladder / Antoine Glicenstein; FERIOLI G; Antoine Browaeys; and Igor Ferrier-Barbut. - In: OPTICS LETTERS. - ISSN 1539-4794. - ELETTRONICO. - 47:(2022), pp. 1541-1544. [https://doi.org/10.1364/OL.451903]
From superradiance to subradiance: exploring the many-body Dicke ladder
FERIOLI G;
2022
Abstract
We report a time-resolved study of collective emission in dense ensembles of two-level atoms. We compare, on the same sample, the buildup of superradiance and subradiance from the ensemble when driven by a strong laser. This allows us to measure the dynamics of the population of superradiant and subradiant states as a function of time. In particular, we demonstrate the buildup in time of subradiant states through superradiant dynamics. This illustrates the dynamics of the many-body density matrix of superradiant ensembles of two-level atoms when departing from the ideal conditions of Dicke superradiance, in which symmetry forbids the population of subradiant states.
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