DocumentCode
1144947
Title
Laser-stimulated atomic migration
Author
Franklin, Wilbur M. ; Sengupta, Papiya
Author_Institution
Department of Physics, Kent State University, OH, USA
Volume
8
Issue
4
fYear
1972
fDate
4/1/1972 12:00:00 AM
Firstpage
393
Lastpage
400
Abstract
The effects of stimulated Raman scattering (SRS) and of infrared (IR) absorption on the scattering at defects leading to atomic migration in solids is evaluated in detail for certain systems.
, where
is the activation energy, uic is the many-body critical displacement in a migration event, and
is the equal-time correlation function including anharmonic terms. Using the equal-time correlation for the defect lattice in the harmonic approximation, we get
where Teff includes both ne and ns the externally and thermally excited phonon numbers, respectively. The phonon rate density required for an observable effect of SRS or IR absorption on diffusion in solids is
phonons/s.cm2, where
is a critical number of high wave-vector laser-stimulated phonons, cs , is the sound velocity, and V, the volume per atom. In KCI at 110 K, theory shows that
can produce a factor of 10 effect on the reorientation of Na:FA centers. Anharmonic effects on
were calculated and numerical estimates indicate that they would be experimentally observable for large ne . It is found that some of the effects reported here probably contribute, in part, to the permanent damage tracks caused by high-power laser beams in solids and provide an internal source for the initiation of microcracks. In addition, the direction of the stimulated phonon wave vector is shown to produce a directional effect in the control of atomic migration.
, where
is the activation energy, u
is the equal-time correlation function including anharmonic terms. Using the equal-time correlation for the defect lattice in the harmonic approximation, we get
where T
phonons/s.cm2, where
is a critical number of high wave-vector laser-stimulated phonons, c
can produce a factor of 10 effect on the reorientation of Na:F
were calculated and numerical estimates indicate that they would be experimentally observable for large nKeywords
Acoustic scattering; Atom lasers; Atomic beams; Electromagnetic wave absorption; Laser beams; Laser theory; Lattices; Phonons; Raman scattering; Solid lasers;
fLanguage
English
Journal_Title
Quantum Electronics, IEEE Journal of
Publisher
ieee
ISSN
0018-9197
Type
jour
DOI
10.1109/JQE.1972.1076978
Filename
1076978
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