. . . . "P(ED1.1.00/02.0068), P(ED2.1.00/03.0086), P(TA02010784)" . "Franta, Daniel" . "RIV/00216224:14310/14:00073318!RIV15-MSM-14310___" . . . "A dispersion model describing two-phonon absorption is developed using several simplifications of the quasiparticle approach. The dielectric response is constructed from absorption bands corresponding to individual additive and subtractive combinations of phonon branches. The model also includes thermal effects, changes of the transition strength with temperature, originating in Bose-Einstein statistics, and the shift of phonon frequencies accompanying thermal expansion. The model is applied to the analysis of experimental data measured in the IR range on crystalline silicon. The modeled spectral dependencies of optical constants are capable of describing all features in the transmittance spectra 70-1000 cm(-1) observable at 300K for float-zone silicon. The phonon frequencies in the points of symmetry are obtained independently in good agreement with ab initio calculations. The model of thermal effects is verified using ellipsometric measurements 300-1000 cm(-1) in the temperature range of 300-500 K." . "14310" . . "OPTICAL MATERIALS EXPRESS" . "Dispersion model of two-phonon absorption: application to c-Si"@en . . . . "http://www.opticsinfobase.org/view_article.cfm?gotourl=http%3A%2F%2Fwww.opticsinfobase.org%2FDirectPDFAccess%2FB9069063-9DEF-05B1-C29672DD04E649DB_296190%2Fome-4-8-1641.pdf%3Fda%3D1%26id%3D296190%26seq%3D0%26mobile%3Dno&org=" . . "10.1364/OME.4.001641" . "Dispersion model of two-phonon absorption: application to c-Si" . "HFO2 THIN-FILMS; LATTICE ABSORPTION; OPTICAL-PROPERTIES; SILICON; DEPOSITION"@en . "US - Spojen\u00E9 st\u00E1ty americk\u00E9" . "Zaj\u00ED\u010Dkov\u00E1, Lenka" . . "4" . "11754" . "4"^^ . "2159-3930" . "16"^^ . . "000341647900016" . "Dispersion model of two-phonon absorption: application to c-Si"@en . "RIV/00216224:14310/14:00073318" . . "A dispersion model describing two-phonon absorption is developed using several simplifications of the quasiparticle approach. The dielectric response is constructed from absorption bands corresponding to individual additive and subtractive combinations of phonon branches. The model also includes thermal effects, changes of the transition strength with temperature, originating in Bose-Einstein statistics, and the shift of phonon frequencies accompanying thermal expansion. The model is applied to the analysis of experimental data measured in the IR range on crystalline silicon. The modeled spectral dependencies of optical constants are capable of describing all features in the transmittance spectra 70-1000 cm(-1) observable at 300K for float-zone silicon. The phonon frequencies in the points of symmetry are obtained independently in good agreement with ab initio calculations. The model of thermal effects is verified using ellipsometric measurements 300-1000 cm(-1) in the temperature range of 300-500 K."@en . . "4"^^ . . "[19A13DB7ABDE]" . . "Dispersion model of two-phonon absorption: application to c-Si" . . . . . "Ohl\u00EDdal, Ivan" . . "8" . "Ne\u010Das, David" .