A simple and direct time domain derivation of the dyadic Green's function for a uniformly moving non-dispersive dielectric-magnetic medium

Tatiana Danov; Timor Melamed

doi:10.1109/TAP.2012.2189745

A simple and direct time domain derivation of the dyadic Green's function for a uniformly moving non-dispersive dielectric-magnetic medium

Tatiana Danov, Timor Melamed

Department of Electrical & Computer Engineering

Ben-Gurion University of the Negev

Research output: Contribution to journal › Article › peer-review

Abstract

The present contribution is concerned with deriving the relativistic electric and magnetic time-dependent dyadic Green's functions of an isotropic dielectric-magnetic medium (at the frame-at-rest) that is moving in a uniform relativistic velocity under the framework of the Minkowski constitutive relations. The results presented here correct previous reports in the literature [R. Compton, J. Math. Phys. 7, 2145 (1966)] and [C. Tai, J. Math. Phys. 8, 646 (1967)]. By applying a simple space-time and fields-sources transformation, scalarization of the vectorial problem is obtained. Thus the electromagnetic dyads are evaluated from the Green's function of the scalar (time-dependent) wave equation in free space. Emphasis is placed on a simple and direct time domain derivation.

Original language	American English
Article number	6163363
Pages (from-to)	2594-2597
Number of pages	4
Journal	IEEE Transactions on Antennas and Propagation
Volume	60
Issue number	5
DOIs	https://doi.org/10.1109/TAP.2012.2189745
State	Published - 11 May 2012

Keywords

dyadic Green's function
erenkov radiation
moving medium
special relativity

All Science Journal Classification (ASJC) codes

Electrical and Electronic Engineering

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10.1109/TAP.2012.2189745

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abstract = "The present contribution is concerned with deriving the relativistic electric and magnetic time-dependent dyadic Green's functions of an isotropic dielectric-magnetic medium (at the frame-at-rest) that is moving in a uniform relativistic velocity under the framework of the Minkowski constitutive relations. The results presented here correct previous reports in the literature [R. Compton, J. Math. Phys. 7, 2145 (1966)] and [C. Tai, J. Math. Phys. 8, 646 (1967)]. By applying a simple space-time and fields-sources transformation, scalarization of the vectorial problem is obtained. Thus the electromagnetic dyads are evaluated from the Green's function of the scalar (time-dependent) wave equation in free space. Emphasis is placed on a simple and direct time domain derivation.",

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T1 - A simple and direct time domain derivation of the dyadic Green's function for a uniformly moving non-dispersive dielectric-magnetic medium

AU - Danov, Tatiana

AU - Melamed, Timor

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N2 - The present contribution is concerned with deriving the relativistic electric and magnetic time-dependent dyadic Green's functions of an isotropic dielectric-magnetic medium (at the frame-at-rest) that is moving in a uniform relativistic velocity under the framework of the Minkowski constitutive relations. The results presented here correct previous reports in the literature [R. Compton, J. Math. Phys. 7, 2145 (1966)] and [C. Tai, J. Math. Phys. 8, 646 (1967)]. By applying a simple space-time and fields-sources transformation, scalarization of the vectorial problem is obtained. Thus the electromagnetic dyads are evaluated from the Green's function of the scalar (time-dependent) wave equation in free space. Emphasis is placed on a simple and direct time domain derivation.

AB - The present contribution is concerned with deriving the relativistic electric and magnetic time-dependent dyadic Green's functions of an isotropic dielectric-magnetic medium (at the frame-at-rest) that is moving in a uniform relativistic velocity under the framework of the Minkowski constitutive relations. The results presented here correct previous reports in the literature [R. Compton, J. Math. Phys. 7, 2145 (1966)] and [C. Tai, J. Math. Phys. 8, 646 (1967)]. By applying a simple space-time and fields-sources transformation, scalarization of the vectorial problem is obtained. Thus the electromagnetic dyads are evaluated from the Green's function of the scalar (time-dependent) wave equation in free space. Emphasis is placed on a simple and direct time domain derivation.

KW - dyadic Green's function

KW - erenkov radiation

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KW - special relativity

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JO - IEEE Transactions on Antennas and Propagation

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A simple and direct time domain derivation of the dyadic Green's function for a uniformly moving non-dispersive dielectric-magnetic medium

Abstract

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