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Secondary Field-based Three-Dimensional Magnetotelluric Forward Modelling with Absorbing Boundary Conditions

Published on Apr 22, 2015
路 DOI :10.1190/gem2015-035
Shuai Xue (CAS: Chinese Academy of Sciences), Denghai Bai , Yongli Yan
Abstract
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  • Citations (0)
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References3
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#1Marion P. Miensopust (DIAS: Dublin Institute for Advanced Studies)H-Index: 9
#2Pilar Queralt (University of Barcelona)H-Index: 21
Last. Alan G. Jones (DIAS: Dublin Institute for Advanced Studies)H-Index: 54
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30 CitationsSource
A new technique of free-space simulation has been developed for solving unbounded electromagnetic problems with the finite-difference time-domain method. Referred to as PML, the new technique is based on the use of an absorbing layer especially designed to absorb without reflection the electromagnetic waves. The first part of the paper presents the theory of the PML technique. The second part is devoted to numerical experiments and to numerical comparisons with the previously used techniques of ...
7,239 CitationsSource
#1Weng Clio Clicw (UIUC: University of Illinois at Urbana鈥揅hampaign)H-Index: 67
#2W.H. Weedon (UIUC: University of Illinois at Urbana鈥揅hampaign)H-Index: 4
A modified set of Maxwell's equations is presented that includes complex coordinate stretching along the three Cartesian coordinates. The added degrees of freedom in the modified Maxwell's equations allow the specification of absorbing boundaries with zero reflection at all angles of incidence and all frequencies. The modified equations are also related to the perfectly matched layer that was presented recently for 2D wave propagation. Absorbing-material boundary conditions are of particular int...
1,185 CitationsSource
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