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W2088897475 endingPage "6741" @default.
W2088897475 startingPage "6731" @default.
W2088897475 abstract "Since the first time-resolved Raman studies of phonon populations under pulsed-laser-annealing conditions, a number of cw Raman studies have been performed which provide a much improved basis for interpreting the pulsed Raman data. Here we present new pulsed Raman results and interpret them with reference to temperature-dependent resonance effects, high-carrier-density effects, phonon anharmonicity, and laser-induced strain effects. The pulsed Raman data---Stokes to anti-Stokes ratios, shift and shape of the first-order peak, and second-order spectra---indicate the existence of a phase in which the Raman signal disappears followed by a rapidly cooling solid which begins within 300 K of the 1685 K normal melting temperature of Si. We identify a major difficulty in pulsed Raman studies in Si to be the decrease in Raman intensity at high temperatures." @default.
W2088897475 created "2016-06-24" @default.
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W2088897475 date "1985-11-15" @default.
W2088897475 modified "2023-09-23" @default.
W2088897475 title "Phonon populations by nanosecond-pulsed Raman scattering in Si" @default.
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W2088897475 doi "https://doi.org/10.1103/physrevb.32.6731" @default.
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