A Monte-Carlo FDTD Technique for Electromagnetic Wave Scattering from a Perfectly Conducting Fractal Surface

Dong-Muk CHOI; Che-Young KIM; Kwang-Hee KWON

A Monte-Carlo FDTD Technique for Electromagnetic Wave Scattering from a Perfectly Conducting Fractal Surface

Dong-Muk CHOI, Che-Young KIM, Kwang-Hee KWON

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This letter presents a Monte-Carlo FDTD technique to determine the scattered field from a perfectly conducting fractal surface from which the useful information on the incoherent pattern tendency could be observed. A one-dimensional fractal surface was generated by the bandlimited Weierstrass function. In order to verify the numerical results by this technique, these results are compared with those of Kirchhoff approximations, which show a good match between them. To investigate the incoherent pattern tendency involved, the dependence of the fitting curve slope on the different D and is discussed for the bistatic and back scattering case, respectively.

Publication: IEICE TRANSACTIONS on Electronics Vol.E86-C No.4 pp.668-671

Publication Date: 2003/04/01

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Type of Manuscript: LETTER

Category: Electromagnetic Theory

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Dong-Muk CHOI, Che-Young KIM, Kwang-Hee KWON, "A Monte-Carlo FDTD Technique for Electromagnetic Wave Scattering from a Perfectly Conducting Fractal Surface" in IEICE TRANSACTIONS on Electronics, vol. E86-C, no. 4, pp. 668-671, April 2003, doi: .
Abstract: This letter presents a Monte-Carlo FDTD technique to determine the scattered field from a perfectly conducting fractal surface from which the useful information on the incoherent pattern tendency could be observed. A one-dimensional fractal surface was generated by the bandlimited Weierstrass function. In order to verify the numerical results by this technique, these results are compared with those of Kirchhoff approximations, which show a good match between them. To investigate the incoherent pattern tendency involved, the dependence of the fitting curve slope on the different D and is discussed for the bistatic and back scattering case, respectively.
URL: https://global.ieice.org/en_transactions/electronics/10.1587/e86-c_4_668/_p

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@ARTICLE{e86-c_4_668,
author={Dong-Muk CHOI, Che-Young KIM, Kwang-Hee KWON, },
journal={IEICE TRANSACTIONS on Electronics},
title={A Monte-Carlo FDTD Technique for Electromagnetic Wave Scattering from a Perfectly Conducting Fractal Surface},
year={2003},
volume={E86-C},
number={4},
pages={668-671},
abstract={This letter presents a Monte-Carlo FDTD technique to determine the scattered field from a perfectly conducting fractal surface from which the useful information on the incoherent pattern tendency could be observed. A one-dimensional fractal surface was generated by the bandlimited Weierstrass function. In order to verify the numerical results by this technique, these results are compared with those of Kirchhoff approximations, which show a good match between them. To investigate the incoherent pattern tendency involved, the dependence of the fitting curve slope on the different D and is discussed for the bistatic and back scattering case, respectively.},
keywords={},
doi={},
ISSN={},
month={April},}

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TY - JOUR
TI - A Monte-Carlo FDTD Technique for Electromagnetic Wave Scattering from a Perfectly Conducting Fractal Surface
T2 - IEICE TRANSACTIONS on Electronics
SP - 668
EP - 671
AU - Dong-Muk CHOI
AU - Che-Young KIM
AU - Kwang-Hee KWON
PY - 2003
DO -
JO - IEICE TRANSACTIONS on Electronics
SN -
VL - E86-C
IS - 4
JA - IEICE TRANSACTIONS on Electronics
Y1 - April 2003
AB - This letter presents a Monte-Carlo FDTD technique to determine the scattered field from a perfectly conducting fractal surface from which the useful information on the incoherent pattern tendency could be observed. A one-dimensional fractal surface was generated by the bandlimited Weierstrass function. In order to verify the numerical results by this technique, these results are compared with those of Kirchhoff approximations, which show a good match between them. To investigate the incoherent pattern tendency involved, the dependence of the fitting curve slope on the different D and is discussed for the bistatic and back scattering case, respectively.
ER -