Brillouin Scattering from Transverse Phonons in Rare-Gas Crystals

15 November 1972

journal article
research article
Published by American Physical Society (APS) in Physical Review B

Vol. 6 (10) , 4075-4077
https://doi.org/10.1103/physrevb.6.4075

Abstract

A mechanism is investigated for Brillouin scattering from transverse modes in rare-gas crystals, which is related to that which produces Raman scattering. Consideration is given to the intensity to be expected for the anomalous

T_{2}

mode in the (110) direction in bcc

{}^{3}{He}

; observation of this mode is concluded to be experimentally feasible. However, this mechanism is not compatible with the observed elasto-optic coefficients of xenon.

Keywords

This publication has 13 references indexed in Scilit:

Computation of Phonon Spectral Functions and Ground-State Energy of Solid Helium. I. bcc Phase
Physical Review A, 1972
Raman Scattering from Condensed Phases of ${He}^{3}$ and ${He}^{4}$
Physical Review Letters, 1971
Determination of the Elastic Constants of Xenon Single Crystals by Brillouin Scattering
Physical Review B, 1971
Computation of Raman-Scattering Cross Sections in Rare-Gas Crystals. II. Helium
Physical Review B, 1971
Sound Propagation in X-Ray-Oriented Single Crystals of hcp Helium-4 and bcc Helium-3
Physical Review A, 1971
Theory of the Photoelastic Interaction
Physical Review B, 1971
Elastic Constants of bccHe3from Measurements of Sound Velocity, Debye Temperature, and Compressibility
Physical Review A, 1971
Computation of Raman Scattering Cross Sections in Rare-Gas Crystals. I. Neon and Argon
Physical Review B, 1970
Anharmonic Phonons and Lattice Specific Heat in bcc ${}^{3}{He}$
Physical Review Letters, 1970
Light Scattering from Solid Helium
Physical Review B, 1969