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The Electromagnetic Field of a Magnetic Dipole above a Conducting Half-Space


Affiliations
1 Department of Mathematics, University of Kafr El-Sheikh, Egypt
2 2Department of Physics, King Abdul-Aziz University, Jeddah 21412, Saudi Arabia
 

We calculate solutions for the electromagnetic field due to a magnetic dipole and a finite loop vertically oriented and above a conducting ground by means of an approximate Green function in the frequency domain. Our solution is expressed as the sum of two partial azimuthally electric field, the two partial field are identified as radioactive and diffusion, the transient source in which the exciting current is abruptly switched off has been considered in detail.

Keywords

Reflection, Electromagnetic Field, Ward.
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  • Wait JR. Electromagnetic waves theory. 1986.
  • Kaufman AA. Harmonic and transient field on the surface of non-layer medium. Geophysies. 1969;44:1208.
  • Stration JP. Electromagnetic theory. Mc.Graw-Hill. 1941.
  • Ward SH. Part A. Electromagnetic theory for geophysical applications. Mining Geophysics. 1967;2:13-196.
  • Ward SH. Part C-The electromagnetic method. Mining Geophysics, Theory. 1967;2:224-372.
  • Morce PM, Feshbach H. Methods of theoretical physics. Mc-Graw Hill. 1951.
  • Sommerfeld A. Partial Differential in physics. Academic Press. 1941.
  • Abo-Seliem AA. The transient response above an evaporation duct. J Phys D Appl Phys. 1998;3:3046-50.

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  • The Electromagnetic Field of a Magnetic Dipole above a Conducting Half-Space

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Authors

Adel AS Abo Seliem
Department of Mathematics, University of Kafr El-Sheikh, Egypt
F. Alseroury
2Department of Physics, King Abdul-Aziz University, Jeddah 21412, Saudi Arabia

Abstract


We calculate solutions for the electromagnetic field due to a magnetic dipole and a finite loop vertically oriented and above a conducting ground by means of an approximate Green function in the frequency domain. Our solution is expressed as the sum of two partial azimuthally electric field, the two partial field are identified as radioactive and diffusion, the transient source in which the exciting current is abruptly switched off has been considered in detail.

Keywords


Reflection, Electromagnetic Field, Ward.

References