G. N. Borzdov scite author profile

A plane harmonic electromagnetic wave obliquely incident on a plane stratified bianisotropic medium with multiple discontinuities in the parameters is considered. A covariant wave-splitting approach, based on the use of the formula of integration by parts for multiplicative integrals and the impedance concept, is presented. It encompasses various types of decomposition of the total internal field into two waves propagating in opposite directions, including the physical and vacuum wave splittings treated earlier in the literature, and provides a convenient means for both analytical investigation and numerical calculation of evolution operators (Green’s functions) and impedance tensors of split waves as well as characteristic matrices and reflection and transmission tensors of stratified bianisotropic media. The potentialities of the approach are illustrated by its application to the problems of reflection, transmission, and guided propagation, and by generalizing the method of multiple reflections to the case of stratified bianisotropic media.

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Ground state and the spin precession of the Dirac electron in counterpropagating plane electromagnetic waves

Borzdov

2016

Phys. Rev. A

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The fundamental solution of the Dirac equation for an electron in an electromagnetic field with harmonic dependence on space-time coordinates is obtained. The field is composed of three standing plane harmonic waves with mutually orthogonal phase planes and the same frequency. Each standing wave consists of two eigenwaves with different complex amplitudes and opposite directions of propagation. The fundamental solution is obtained in the form of the projection operator defining the subspace of solutions to the Dirac equation. It is illustrated by the analysis of the ground state and the spin precession of the Dirac electron in the field of two counterpropagating plane waves with left and right circular polarizations. Interrelations between the fundamental solution and approximate partial solutions is discussed and a criterion for evaluating accuracy of approximate solutions is suggested.

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The impedance operator method for calculation of electro-optic systems for control laser radiation. I: basic theory

Barkovskii

Borzdov

Zhilko

et al. 1996

J. Phys. D: Appl. Phys.

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G. N. Borzdov

Fresnel's reflection and transmission operators for stratified gyroanisotropic media

Electromagnetic space-time crystals. I. Fundamental solution of the Dirac equation

Frequency domain wave-splitting techniques for plane stratified bianisotropic media

Ground state and the spin precession of the Dirac electron in counterpropagating plane electromagnetic waves

The impedance operator method for calculation of electro-optic systems for control laser radiation. I: basic theory

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