Gilbert Vincent scite author profile

This study presents optical transmission measurements performed on free-standing homogeneous porous silicon (PS) films of different porosities and substrate doping levels. The absorption coefficient curves deduced from these measurements, taking into account the total quantity of matter in the PS film, exhibit significant blue shift (up to 500 meV). These shifts, well correlated with the crystallite size variations with porosity and substrate doping observed by electron microscopy and gas adsorption experiments, are attributed to quantum size effects in the silicon microcrystallites.

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Photoelectric memory effect in GaAs

Vincent

Bois²,

Chantre³

1982

307

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Experimental data are reported for the persistent photocapacitance quenching observed at 77 K in GaAs. This effect, which arises on the so-called oxygen (or EL2) center in gallium arsenide, is explained by the existence of two states of this center. The physical parameters of these stable and metastable states are given: optical cross section, annealing, and electrical deexcitation. Assuming a large lattice relaxation for the metastable one, a physical model is given with a possible microscopic origin. Other striking memory effects, and especially photoconductivity, are shown to be simply explained by our model.

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Gilbert Vincent

Deep-level optical spectroscopy in GaAs

Electric field effect on the thermal emission of traps in semiconductor junctions

Optical properties of porous silicon superlattices

Optical absorption evidence of a quantum size effect in porous silicon

Photoelectric memory effect in GaAs

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