Calculation of Sommerfeld Integrals in Dipole Radiation Problems

Sautbekov, Seil; Sautbekova, Merey; Baisalova, Kuralay; Pshikov, Mustakhim

doi:10.3390/math12020298

Mathematics

2024

DOI: 10.3390/math12020298

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Calculation of Sommerfeld Integrals in Dipole Radiation Problems

Seil Sautbekov,

Merey Sautbekova,

Kuralay Baisalova

et al.

Abstract: This article proposes asymptotic methods for calculating Sommerfeld integrals, which enable us to calculate the integral using the expansion of a function into an infinite power series at the saddle point, where the role of a rapidly oscillating function under the integral can be fulfilled either by an exponential or by its product by the Hankel function. The proposed types of Sommerfeld integrals are generalized on the basis of integral representations of the Hertz radiator fields in the form of the inverse H… Show more

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2024

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Cited by 1 publication

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The electromagnetic field of a current conductor in the presence of lossy half-space

Gavrilović-Božović,

Vasković-Jovanović,

Čabarkapa

et al. 2024

Engineering Today

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In this paper, the electromagnetic field problem of a line current conductor in the presence of homogenous and ISO-tropic lossy half-space is analyzed. The main difficulty in this analysis is to take correctly into account the influence of ground finite conduct since the use of integral transformations in Maxwell's equations leads to Sommerfeld integral, hard to evaluate even numerically. Charge Simulation Method, based on the equivalence theorem of different electromagnetic systems, is proposed here for the numerical approach. Two independent, equivalent systems created of appropriately chosen, shaped, and arranged fictitious sources are suggested for the determination of EM field components , in the air and in the lossy half-space. Point-matching method based on the boundary conditions between media is applied for the determination of the fictitious source intensities. The proposed procedure has the advantage that it takes into account the influence of the finite ground conductivity, without calculation of Sommerfeld integral and it ensures excellent accuracy with a small number of fictitious sources. Also, the features of the proposed method are simple impel-mentation on a standard PC, fast and accurate simulation procedure, and easy generalization for some other cases of arbitrarily oriented wires of finite lengths above a lossy half space.

show abstract

The electromagnetic field of a current conductor in the presence of lossy half-space

Gavrilović-Božović,

Vasković-Jovanović,

Čabarkapa

et al. 2024

Engineering Today

View full text Add to dashboard Cite

show abstract

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Calculation of Sommerfeld Integrals in Dipole Radiation Problems

Cited by 1 publication

References 17 publications

The electromagnetic field of a current conductor in the presence of lossy half-space

The electromagnetic field of a current conductor in the presence of lossy half-space

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