2015
DOI: 10.5755/j01.eee.21.3.10268
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Radiation of a Vertical Dipole over Flat and Lossy Ground using the Spectral Domain Approach: Comparison of Stationary Phase Method Analytical Solution with Numerical Integration Results

Abstract: In this paper we reconsider the problem of radiation from a vertical short (Hertzian) dipole above flat lossy ground, which represents the well-known in the literature 'Sommerfeld radiation problem'. Particularly, we expand on the problem's solution in the spectral domain, which ends up into simple one dimensional (1-D) integral expressions for the received EM field and represent the exact EM solution to the aforementioned problem. The advantage of the derived expressions is based on the fact that they can be … Show more

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Cited by 6 publications
(26 citation statements)
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“…Examining (13) in more detail, an important note can be made at this point: in the present formulation, where variable α is introduced as the variable of integration, instead of kρ, no singularity exists for the integrand within the (0, π) range of α. This is not the case in 3, where singularities exist at points kρ = ±k01, leading to a major problem for our numerical integration procedure, as mentioned in [18]. This appears to be an important advantage of the new proposed formulation, as also described in Section VI below (future research).…”
Section: Redefined Integral Representations and Corresponding Spmmentioning
confidence: 92%
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“…Examining (13) in more detail, an important note can be made at this point: in the present formulation, where variable α is introduced as the variable of integration, instead of kρ, no singularity exists for the integrand within the (0, π) range of α. This is not the case in 3, where singularities exist at points kρ = ±k01, leading to a major problem for our numerical integration procedure, as mentioned in [18]. This appears to be an important advantage of the new proposed formulation, as also described in Section VI below (future research).…”
Section: Redefined Integral Representations and Corresponding Spmmentioning
confidence: 92%
“…Application of the 'Stationary Phase Method' (SPM) to (3) and (4), leads to the following analytic expressions for the electric field vector scattered from the plane ground, in the far field region and in the high frequency regime (for x > 0) [17], [18]  …”
Section: Also Note That In (3) 'mentioning
confidence: 99%
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“…As a result, directly evaluating (19) by the method of saddle points is likely to induce significant errors, since the accuracy of the method depends on the relative position of the pole to the saddle point [17,18]. This was actually revealed in [22,23] in which the evaluation of (19) resulted in a single term, corresponding to the space wave component of the field only, thus missing to describe the surface wave behavior of it. Even, more, at sliding observation angles, the method failed completely to estimate field values, a consequence of the known fact that the space wave component at such circumstances almost vanishes, for the reflection coefficient being almost equal to minus one [19].…”
Section: Scattered Fieldmentioning
confidence: 99%