Crystal optics with allowance for spatial dispersion; exciton theory. I

V.M. Agranovich^a, V.L. Ginzburg^b
^aInstitute of Spectroscopy, Russian Academy of Sciences, ul. Fizicheskaya 5, Troitsk, Moscow, 108840, Russian Federation
^bLebedev Physical Institute, Russian Academy of Sciences, Leninsky prosp. 53, Moscow, 119991, Russian Federation

Introduction 323
1. Complex Dielectric Tensor [IMG align=ABSMIDDLE alt=$\epsilon$]eps[/IMG]_ij(ω, k) and Normal Waves in the Medium 328
a) The Tensor [IMG align=ABSMIDDLE alt=$\epsilon$]eps[/IMG]_ij(ω, k) and Its Properties 328
b) Normal Electromagnetic Waves in a Medium. Transverse and Longitudinal Waves. "Fictitious" Longitudinal Waves and "Polarization Waves" 331
c) Energy and Other Relations for Waves in an Anisotropic Medium 334
2. The Tensor [IMG align=ABSMIDDLE alt=$\epsilon$]eps[/IMG]_ij(ω, k) in Crystals 337
a) The Concept of the Tensor [IMG align=ABSMIDDLE alt=$\epsilon$]eps[/IMG]_ij(ω, k) for Crystals 337
b) The Case of Weak Spatial Dispersion (a/λ ≪ 1) 339
Cited Literature, Part I 345
3. Crystal optics with allowance for spatial dispersion, a) New wave near absorption line in gyrotropic crystals, b) New waves in non-gyrotropic crystals, c) Optical anisotropy of cubic crystals. Quadrupole absorption lines, d) Effect of mechanical stresses and external electric and magnetic fields, e) The problem of boundary conditions, f) Experimental investigations of effects of spatial dispersion in crystal optics. 4. Quantum mechanical calculation of the tensor [IMG align=ABSMIDDLE alt=$\epsilon$]eps[/IMG]_ij(ω, k). a) Quantum mechanical expression for [IMG align=ABSMIDDLE alt=$\epsilon$]eps[/IMG]_ij(ω, k). b) Mechanical excitons and the tensor [IMG align=ABSMIDDLE alt=$\epsilon$]eps[/IMG]_ij(ω, k) in molecular crystals and in the case of the classical oscillator model, c) Absorption mechanism and calculations. Concluding remarks. Cited literature, part II.

PACS: 71.35.−y, 78.20.Ci (all)
DOI: 10.1070/PU1962v005n02ABEH003415
URL: https://ufn.ru/en/articles/1962/2/i/
Citation: Agranovich V M, Ginzburg V L "Crystal optics with allowance for spatial dispersion; exciton theory. I" Sov. Phys. Usp. 5 323–346 (1962)

BibTexBibNote ® (generic)BibNote ® (RIS)MedlineRefWorks

Оригинал: Агранович В М, Гинзбург В Л «Кристаллооптика с учетом пространственной дисперсии и теория экситонов. I» УФН 76 643–682 (1962); DOI: 10.3367/UFNr.0076.196204b.0643

Cited by (44) Similar articles (20) ↓

V.M. Agranovich, V.L. Ginzburg “Crystal optics with allowance for spatial dispersion; exciton theory. II” 5 675–710 (1963)
V.L. Ginzburg “The scattering of light near points of phase transition in solids” 5 649–660 (1963)
A.A. Rukhadze, V.P. Silin “Electrodynamics of media with spatial dispersion” 4 459–484 (1961)
N.B. Baranova, B.Ya. Zel’dovich “Two approaches to spatial dispersion in molecular scattering of light” 22 143–159 (1979)
V.L. Ginzburg “Certain theoretical aspects of radiation due to superluminal motion in a Medium” 2 874–893 (1960)
S.I. Pekar “Supplementary light waves in crystals and exciton absorption” 5 515–521 (1962)
V.M. Agranovich “Crystal optics of suface polaritons and the properties of surfaces” 18 99–117 (1975)
M.I. Kaganov, N.B. Pustyl’nik, T.I. Shalaeva “Magnons, magnetic polaritons, magnetostatic waves” 40 181–224 (1997)
L.N. Ovander “Nonlinear optical effects in crystals” 8 337–359 (1965)
V.A. Kizel’, Yu.I. Krasilov, V.I. Burkov “Experimental studies of gyrotropy of crystals” 17 745–773 (1975)
B.P. Zakharchenya, R.P. Seisyan “Diamagnetic excitons in semiconductors” 12 70–79 (1969)
S.B. Kormer “Optical study of the characteristics of shock-compressed condensed dielectrics” 11 229–254 (1968)
V.M. Agranovich, I.I. Lalov “Effects of strong anharmonicity in the spectra of optical phonons and polaritons” 28 484–505 (1985)
E.F. Sheka “Electron-vibrational spectra of molecules and crystals” 14 484–511 (1972)
V.N. Pokrovskii “Stresses, viscosity, and optical anisotropy of a Moving suspension of rigid ellipsoids” 14 737–746 (1972)
Yu.S. Barash, V.L. Ginzburg “Electromagnetic fluctuations in matter and molecular (Van-der- Waals) forces between them” 18 305–322 (1975)
E.M. Aver’yanov, M.A. Osipov “Effects of the local field of a light wave in the molecular optics of liquid crystals” 33 (5) 365–384 (1990)
V.I. Bredikhin, M.D. Galanin, V.N. Genkin “Two-photon absorption and spectroscopy” 16 299–321 (1973)
G.V. Rozenberg “Absorption spectroscopy of dispersed materials” 2 666–698 (1959)
V.L. Ginzburg, S.I. Syrovatskii “Cosmic magnetic bremsstrahlung (synchrotron radiation)” 8 674–701 (1966)

The list is formed automatically.