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Motion-induced signal revival in pulsed Rydberg four-wave mixing beyond the frozen gas limit

We present measurements on pulsed four-wave mixing involving a Rydberg state in an atomic vapor cell. The excitation to the Rydberg state is conducted by a pulsed two-photon excitation on the nanosecond timescale that is combined with a third CW laser in phase-matched geometry yielding light emission on the same timescale. An additional signal peak is observed shortly after the pulse that can be attributed to a revival of constructive interference between different velocity classes of the radiating atomic dipoles. Furthermore we investigate the density dependence of the four-wave mixing signal. From the shape of the respective curve we are able to confirm energy and momentum conservation in the photonic part of the system.

preprint2014arXivOpen access
B. HuberA. KölleT. Pfau
physics.atom-ph
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B. HuberA. KölleT. Pfau

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