Abstract
We report on the observation of slow light induced by transient spectral hole-burning in a solid, that is based on excited-state population storage. Experiments were conducted in the R1-line (2E←4A2 transition) of a 2.3 mm thick pink ruby (Al2O3:Cr(III) 130 ppm). Importantly, the pulse delay can be controlled by the application of a low external magnetic field B||c≤9 mT and delays of up to 11 ns with minimal pulse distortion are observed for ~55 ns Gaussian pulses. The delay corresponds to a group velocity value of ~c/1400. The experiment is very well modelled by linear spectral filter theory and the results indicate the possibility of using transient hole-burning based slow light experiments as a spectroscopic technique.
Highlights
Slowing light down by low magnetic fields: pulse delay by transient spectral hole-burning in ruby Riesen, Hans; Rebane, Aleksander K.; Szabo, Alex; Carceller, Ivana
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Summary
Slowing light down by low magnetic fields: pulse delay by transient spectral hole-burning in ruby Riesen, Hans; Rebane, Aleksander K.; Szabo, Alex; Carceller, Ivana. / La version de cette publication peut être l’une des suivantes : la version prépublication de l’auteur, la version acceptée du manuscrit ou la version de l’éditeur.
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