2012
DOI: 10.1029/2012jd017851
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Numerical simulation of the lightning electromagnetic fields along a rough and ocean‐land mixed propagation path

Abstract: [1] In this paper we analyze the propagation effect of a rough and ocean-land mixed path on the lightning vertical electric field and azimuthal magnetic field by using Barrick's formulations and Wait's formulations. When the lightning-radiated electromagnetic fields propagate from the rough ocean surface to the finitely conducting land section, it is noted that the effect of the rough land section on the fields is much more than that of the rough ocean surface. The propagation effect of a small land section w… Show more

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Cited by 16 publications
(13 citation statements)
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“…It should also be mentioned that we have not considered the effect of the soil stratification along the considered field propagation path, which depends on the depth of the top layer and electrical characteristics of the layers (Li et al, ; Zhang et al, ).…”
Section: Modelingmentioning
confidence: 99%
“…It should also be mentioned that we have not considered the effect of the soil stratification along the considered field propagation path, which depends on the depth of the top layer and electrical characteristics of the layers (Li et al, ; Zhang et al, ).…”
Section: Modelingmentioning
confidence: 99%
“…The attenuation of the initial radiation field resulting from the propagation over finitely conducting ground strongly depends on the current risetime, the object height, the ground conductivity and so on. When the lightning strikes tall objects, the high frequency content increases due to the transient process, the corresponding attenuation will become more seriously, because of the selective attenuation of the high frequency components along the finitely conducting ground (e.g., Rubinstein, 1996;Cooray, 1987Cooray, , 2003Cooray, , 2008Cooray, , 2009Cooray and Ming, 1994;Cooray and Perez, 1994;Cooray et al, 2000;Delfino et al, 2008aDelfino et al, , 2008bShoory et al, 2011aShoory et al, , 2011bZhang et al, 2012aZhang et al, , 2012bZhang et al, , 2012cZhang et al, , 2012dZhang et al, , 2013Li et al, 2013Li et al, , 2014. As a result, the peak and peak derivatives of the electromagnetic radiation fields far away from a lightning strike point may deviate from their ideal values.…”
Section: Introductionmentioning
confidence: 98%
“…Based on the azimuthal magnetic field on the perfectly conducting ground as depicted above, the propagation effect of the finite conductivity of the earth can be computed as below (e.g., Shoory et al, 2011aShoory et al, , 2011bCooray and Ming, 1994;Zhang et al, 2012aZhang et al, , 2012bZhang et al, , 2012cZhang et al, , 2012dZhang et al, , 2013Li et al, 2013Li et al, , 2014.…”
Section: The Model Introductionmentioning
confidence: 99%
“…Most studies considered the effect of the ground conductivity by assuming a homogeneous finitely conducting smooth ground (Aoki et al, ; Hu and Cummer, ; Qin et al, ; Shao et al, ; Tran et al, ). More recently, the effect of the propagation of lightning electromagnetic fields over a rough surface has been investigated in many studies (Cooray and Ming, ; Ming and Cooray, ; Li et al, , , , ; Liu et al, ; Schulz and Diendorfer, ; Zhang, Jing, et al, ; Zhang, Yang, et al, ). It was noted that the waveshape, peak value, and time delay of the lightning‐radiated fields could be strongly affected when the propagation proceeds along a mountainous terrain or a nonflat ground.…”
Section: Introductionmentioning
confidence: 99%