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W1980592088 endingPage "2866" @default.
W1980592088 startingPage "2851" @default.
W1980592088 abstract "Recent experimental evidence has established that the scattering of phonons by dislocations at low temperatures in [110] LiF rods is primarily a dynamic rather than a static process, but calculations of the effects of vibrating dislocations have failed to provide quantitative agreement with experimental observations of the magnitudes and temperature dependence of the effect. We have performed a calculation which includes many factors previously neglected and show that the effects of resonance angle scattering, phonon focusing, and the resolved shear stress factor have an important influence on the effect of vibrating dislocations on thermal conductivity. However, the detailed calculation shows that in the case of [110] LiF rods the inclusion of these previously neglected factors still does not resolve the discrepancies observed and it is concluded that independently vibrating dislocations are not the important phonon scatterers above 0.1 K in LiF. It is shown, however, that the experimental data may be fit by assuming reasonable densities and distributions of optically vibrating dislocation dipoles." @default.
W1980592088 created "2016-06-24" @default.
W1980592088 creator A5003195746 @default.
W1980592088 creator A5066424705 @default.
W1980592088 date "1982-02-15" @default.
W1980592088 modified "2023-09-26" @default.
W1980592088 title "Effect of independent and coupled vibrations of dislocations on low-temperature thermal conductivity in alkali halides" @default.
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W1980592088 doi "https://doi.org/10.1103/physrevb.25.2851" @default.
W1980592088 hasPublicationYear "1982" @default.
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