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- Title
Fluctuation states and optical spectra of solid solutions with a strong isoelectronic perturbation.
- Authors
Klochikhin, A. A.; Permogorov, S. A.; Reznitskiı, A. N.
- Abstract
We propose an approach to describing the density of fluctuation states in a disordered solid solution with a strong perturbation introduced by isoelectronic substitution in the range of attraction-center concentrations below the threshold of percolation along the sites of a disordered sublattice. To estimate the number of localized states we use the results of lattice percolation theory. We describe a method for distinguishing, within the continuum percolation theory, among the various "radiating" states of the fluctuation-induced tail, states that form the luminescence band at weak excitation. We also establish the position of the band of radiating states in relation to the absorption band of the excitonic ground state and the mobility edge of the system. The approach is used to describe the optical spectra of the solid solution ZnSe[sub 1-c]Te[sub c], which at low Te concentrations can be interpreted as a system with strong scattering. We take into account the exciton-phonon interaction and show that the calculated and observed luminescence spectra of localized excitons are in good agreement with each other.
- Subjects
SOLID solutions; FLUCTUATIONS (Physics); QUANTUM perturbations
- Publication
Journal of Experimental & Theoretical Physics, 1999, Vol 88, Issue 3, p574
- ISSN
1063-7761
- Publication type
Article
- DOI
10.1134/1.558831