Spatial diffusion of weakly bottlenecked 29 cm-1 phonons in ruby observed by quasi-stationary techniques
Abstract
In weakly bottlenecked ruby the decay of 29 cm-1 phonons is found to occur through spatial diffusion to the edge of the excitation zone, also when the phonon packets are fully separated in a magnetic field. The regime of very weak bottlenecking could be disclosed for experiment by a new technique, based on quasi-stationary tracking of the R1 and R2 fluorescence after switching on strong optical pumpingSimilar works
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Last time updated on 14/06/2016
This paper was published in Utrecht University Repository.
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