Nonperturbative theory of temperature-dependent optical dephasing in crystals. III. Comparison with experiment
- 1 September 1985
- journal article
- research article
- Published by AIP Publishing in The Journal of Chemical Physics
- Vol. 83 (5) , 2107-2115
- https://doi.org/10.1063/1.449353
Abstract
We have applied the results of the nonperturbative theory of zero-phonon linewidths of impurities in crystals discussed by Osad’ko and us, and further developed by us in papers I and II of this series, to the analysis of several absorption, photon echo, and hole burning experiments. Two (relatively) high temperature absorption experiments on 1,3-diazaazulene in naphthalene and dilute ruby were analyzed with a model of Debye acoustic phonons. In both cases the Debye temperature was obtained from independent experiment or theory, and a one-parameter fit was performed on the temperature-dependent linewidth. It was found that (especially for diazaazulene) the systems are not in the weak coupling limit. For several low temperature experiments, where the dephasing is presumably due to pseudolocal phonons, the nonperturbative theory, coupled with the results of deBree and Wiersma, provides a reasonably complete understanding of the observed dephasing rates.Keywords
This publication has 42 references indexed in Scilit:
- On the thermal broadening of zero-phonon impurity lines in absorption and fluorescence spectraThe Journal of Chemical Physics, 1984
- The theory of photon echoes for strongly coupled electron–phonon systemsThe Journal of Chemical Physics, 1982
- Optical dephasing and vibronic relaxation in molecular mixed crystals: A picosecond photon echo and optical study of pentacene in naphthalene and p-terphenylThe Journal of Chemical Physics, 1980
- The origin of optical dephasing times and line shape functions for electronic transitions to localized and delocalized states in solidsThe Journal of Chemical Physics, 1977
- The temperature broadening of purely electronic lines by the hole burning techniqueOptics Communications, 1977
- Dependence of impurity zero-phonon thermal broadening on vibron level in organic crystals: A manifestation of the crystal anharmonicityThe Journal of Chemical Physics, 1974
- Zero‐Phonon Lines in the Luminescence Spectra of Impurity Organic Crystals and Electron–Phonon InteractionPhysica Status Solidi (b), 1973
- A Model for the Lattice Dynamics of Naphthalene and AnthracenePhysica Status Solidi (b), 1967
- Direct 2T1−2E Phonon Relaxation in Ruby and Its Effect Upon R-Line BreadthJournal of Applied Physics, 1966
- Thermal properties of aluminum oxide from 0 to 1200 KJournal of Research of the National Bureau of Standards, 1956