Abstract
The shapes of the real-phonon and pseudo-phonon sideband holes (PSBH) which occur in hole-bumed spectra in amorphous solids are both wavelength and bum time dependent. The theory previously proposed to simulate hole shapes in the short burn time limit is extended to examine the PSBH shapes at arbitrary times and at different bum wavelengths. The simulated spectra are compared with experimental data for tetraphenyl porphyrin in polystyrene. It is also shown the stimulated spectra may be used to deconvolve the antihole spectrum from the hole spectrum.
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