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Direct single-shot observation of millimeter wave superradiance in Rydberg-Rydberg transitions

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arxiv 1604.03005 v1 pith:IDSNM7ZF submitted 2016-04-11 physics.atom-ph

Direct single-shot observation of millimeter wave superradiance in Rydberg-Rydberg transitions

classification physics.atom-ph
keywords emissioncooperativedecayfactorinitialmillimeterpulserates
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We have directly detected millimeter wave (mm-wave) free space superradiant emission from Rydberg states ($n \sim 30$) of barium atoms in a single shot. We trigger the cooperative effects with a weak initial pulse and detect with single-shot sensitivity and 20 ps time resolution, which allows measurement and shot-by-shot analysis of the distribution of decay rates, time delays, and time-dependent frequency shifts. Cooperative line shifts and decay rates are observed that exceed values that would correspond to the Doppler width of 250 kHz by a factor of 20 and the spontaneous emission rate of 50 Hz by a factor of $10^5$. The initial superradiant output pulse is followed by evolution of the radiation-coupled many-body system toward complex long-lasting emission modes. A comparison to a mean-field theory is presented which reproduces the quantitative time-domain results, but fails to account for either the frequency-domain observations or the long-lived features.

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