Title :
Some Amendments to “Field-to-Wire Coupling in an Electrically Large Cavity: A Semianalytic Solution”
Author :
Huabin Zhang ; Xiang Zhao ; Liping Yan ; Changjun Liu ; Kama Huang
Author_Institution :
Sichuan Univ., Chengdu, China
Abstract :
In this correspondence, we propose a supplementary spatial correlation function used to amend a simplification made in an earlier published paper in which a semianalytic solution of field-to-wire coupling in an electrically large cavity was first proposed. It can be shown that the horizontal and vertical components of the incident field are correlated in most cases. Without neglecting the correlation between the field components, the supplementary function can help to give more accurate results. It is demonstrated by two numerical simulation examples in which the semianalytic results are compared with the Monte Carlo results and/or the analytic solution.
Keywords :
Monte Carlo methods; electromagnetic coupling; numerical analysis; Monte Carlo methods; electrical large cavity; electromagnetic environment; field components; field-to-wire coupling; numerical simulation; semianalytic solution; supplementary spatial correlation function; Cavity resonators; Correlation; Couplings; Mathematical model; Monte Carlo methods; Power cables; Amendments; corrections; field-to-wire; semianalytic solution; spatial correlation;
Journal_Title :
Electromagnetic Compatibility, IEEE Transactions on
DOI :
10.1109/TEMC.2011.2180910
