Experimental observation that light from a driven dense ensemble of two-level atoms exhibits non-Gaussian statistics due to higher-order atomic correlations without first-order coherence.
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Numerical simulation of spontaneous symmetry breaking in a modified Dicke superradiance model where symmetry selection rules suppress single-photon emission, resulting in a quantum sensor that records the phase of light fluctuations.
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Non-Gaussian correlations in the steady-state of driven-dissipative clouds of two-level atoms
Experimental observation that light from a driven dense ensemble of two-level atoms exhibits non-Gaussian statistics due to higher-order atomic correlations without first-order coherence.
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Spontaneous symmetry breaking in nonlinear superradiance
Numerical simulation of spontaneous symmetry breaking in a modified Dicke superradiance model where symmetry selection rules suppress single-photon emission, resulting in a quantum sensor that records the phase of light fluctuations.