Journal Article10.1103/PHYSREV.126.1977
Nonlinear Dielectric Polarization in Optical Media
2.3K
TL;DR: The physical mechanisms which can produce second-order dielectric polarization are discussed on the basis of a simple extension of the theory of dispersion in ionic crystals in this paper.
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Abstract: The physical mechanisms which can produce second-order dielectric polarization are discussed on the basis of a simple extension of the theory of dispersion in ionic crystals. Four distinct mechanisms are described, three of which are related to the anharmonicity, second-order moment, and Raman scattering of the lattice. These mechanisms are strongly frequency dependent, since they involve ionic motions with resonant frequencies lower than the light frequency. The other mechanism is related to electronic processes of higher frequency than the light, and, therefore, is essentially flat in the range of the frequencies of optical masers. Since this range lies an order of magnitude higher than the ionic resonances, the fourth mechanism may be the dominant one. On the other hand, a consideration of the linear electro-optic effect shows that the lattice is strongly involved in this effect, and, therefore, may be very much less linear than the electrons. It is shown that the question of the mechanism involved in the second harmonic generation of light from strong laser beams may be settled by experiments which test the symmetry of the effect. The electronic mechanism is subject to further symmetry requirements beyond those for piezoelectric coefficients. In many cases, this would greatly reduce the number of independent constants describing the effect. In particular, for quartz and KDP there would be a single constant.
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References
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Dynamical Theory of Crystal Lattices
Max Born,Kʿun Huang +1 more
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TL;DR: Born and Huang's classic work on the dynamics of crystal lattices was published over thirty years ago, and it remains the definitive treatment of the subject as mentioned in this paper. But it is not the most complete work on crystal lattice dynamics.
10.9K
Infrared Lattice Absorption in Ionic and Homopolar Crystals
Melvin Lax,Elias Burstein +1 more
TL;DR: In this article, a qualitative understanding of the contribution of the second-order electric moment to infrared absorption is obtained with the help of a one-dimensional calculation, which is judged to be intrinsic and to be reasonably explained by a second order electric moment arising from charge deformation.
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The Electro-Optic Effect in Uniaxial Crystals of the Type X H 2 PO 4 . I. Theoretical
TL;DR: In this article, the behavior of Z-cut and X-cut plates with voltage in the Z direction was studied and shown to be biaxial with the plane of the optic axes at 45° to the X and Y crystallographic axis, and the retardation along the normal to the plate is directly proportional to the voltage and independent of the thickness.
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