Stimulated Brillouin scattering and optical excitation of coherent shear waves
- 1 September 1982
- journal article
- Published by AIP Publishing in Journal of Applied Physics
- Vol. 53 (9) , 6060-6063
- https://doi.org/10.1063/1.331556
Abstract
The theory of stimulated Brillouin scattering is applied to the experimental situation of crossed mode‐locked laser pulses, centered at the same frequency, in isotropic and anisotropicmaterials. It is shown that generation of pure transverse (shear) ultrasonicwaves should be possible with reasonable efficiency. In general, any acoustic phonon mode that the material can support— pure shear, quasishear, quasilongitudinal, and pure longitudinal—can be populated coherently. The results permit straightforward determination of the experimental configuration that most effectively couples laser energy to the desired mode. The acoustic frequency can be tuned conveniently from about 3 MHz to 30 GHz in most materials.This publication has 21 references indexed in Scilit:
- Optical generation of tunable ultrasonic wavesJournal of Applied Physics, 1982
- Laser-induced phonon spectroscopy. Optical generation of ultrasonic waves and investigation of electronic excited-state interactions in solidsPhysical Review B, 1981
- Diffraction and birefringence by acoustic waves in critical fluidsPhysical Review A, 1981
- Picosecond relaxation processes in liquidsPhilosophical Transactions of the Royal Society of London. Series A, Mathematical and Physical Sciences, 1980
- Laser induced phonons: A probe of intermolecular interactions in molecular solidsThe Journal of Chemical Physics, 1980
- Molecular Vibrations in Liquids: Direct Measurement of the Molecular Dephasing Time; Determination of the Shape of Picosecond Light PulsesPhysical Review Letters, 1971
- Theory of the Photoelastic InteractionPhysical Review B, 1971
- STIMULATED MANDEL'SHTAM–BRILLOUIN SCATTERING AND STIMULATED ENTROPY (TEMPERATURE) SCATTERING OF LIGHTSoviet Physics Uspekhi, 1970
- New Symmetry for Acousto-Optic ScatteringPhysical Review Letters, 1970
- Theoretical Prediction of the Stimulated Thermal Rayleigh Scattering in LiquidsPhysical Review Letters, 1967