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006 m o d
007 cr |n|---|||||
008 120326s2012 nju ob 001 0 eng d
010 _z 2011045255
040 _aEBLCP
_beng
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019 _a795808133
_a847901328
_a965995314
020 _a9780470829639
_q(electronic bk.)
020 _a047082963X
_q(electronic bk.)
020 _a9780470829646
_q(electronic bk.)
020 _a0470829648
_q(electronic bk.)
020 _a1299965938
020 _a9781299965935
020 _z9780470829622
_q(hardback)
029 1 _aAU@
_b000051556727
029 1 _aDEBBG
_bBV041910881
029 1 _aDEBSZ
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029 1 _aDEBSZ
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035 _a(OCoLC)781615038
_z(OCoLC)795808133
_z(OCoLC)847901328
_z(OCoLC)965995314
037 _a10.1002/9780470829646
_bWiley InterScience
_nhttp://www3.interscience.wiley.com
050 4 _aQC760.54
_b.S54 2012
072 7 _aSCI
_x021000
_2bisacsh
072 7 _aSCI
_x022000
_2bisacsh
082 0 4 _a537.0285
049 _aMAIN
100 1 _aSheng, Xin-Qing,
_d1968-
245 1 0 _aEssentials of Computational Electromagnetics.
260 _aHoboken :
_bJohn Wiley & Sons,
_c2012.
300 _a1 online resource (291 pages)
336 _atext
_btxt
_2rdacontent
337 _acomputer
_bc
_2rdamedia
338 _aonline resource
_bcr
_2rdacarrier
504 _aIncludes bibliographical references and index.
505 0 _aEssentials of Computational Electromagnetics; Contents; Preface; 1 Mathematical Formulations for Electromagnetic Fields; 1.1 Deterministic Vector Partial Differential System of the Electromagnetic Fields; 1.1.1 Maxwell's Equations; 1.1.2 Constitutive Relations; 1.1.3 Boundary Conditions; 1.1.4 Maxwell's Equations in the Frequency Domain; 1.1.5 Uniqueness Theorem; 1.2 Vector Wave Equation of the Electromagnetic Fields; 1.3 Vector Integral Equation of the Electromagnetic Fields; 1.3.1 Equivalence Principle; 1.3.2 Solution of Maxwell's Equation in Free Space.
505 8 _a1.3.3 Integral Equations of Metallic Scattering Problems; 1.3.4 Integral Equation of Homogeneous Dielectric Scattering Problems; 1.3.5 Integral Equation of Inhomogeneous Dielectric Scattering Problems; 1.3.6 Integral Equations of Scattering in Layered Medium; References; 2 Method of Moments; 2.1 Scattering from 3D PEC Objects; 2.1.1 Formulation of the Problem; 2.1.2 Discretization in MoM; 2.1.3 Choice of Basis and Testing Functions; 2.1.4 Discretized Integral Equation (DIE) and the Numerical Behavior Analysis; 2.1.5 Handling of Singularity; 2.1.6 Comparison of EFIE and MFIE.
505 8 _a2.1.7 Interior Resonance Problem; 2.1.8 Fast Multipole Method; 2.1.9 Calculation of Scattered Fields; 2.1.10 Writing Computer Program; 2.1.11 Numerical Examples; 2.1.12 Parallel Technology; 2.1.13 Strong Scalability; 2.1.14 Weak Scalability; 2.2 Scattering from Three-Dimensional Homogeneous Dielectric Objects; 2.2.1 Mathematic Formulation of the Problem; 2.2.2 Discretized Forms and Their Numerical Performance; 2.2.3 Numerical Examples; 2.2.4 Implementation of Single Integral Equation and the Numerical Characteristics; 2.3 Scattering from Three-Dimensional Inhomogeneous Dielectric Objects.
505 8 _a2.3.1 Mathematic Formulation of the Problem; 2.3.2 Rooftop Basis Functions; 2.3.3 Discretization of the VIE; 2.3.4 Singularity Processing; 2.3.5 Fast Solution of the Discretized VIE; 2.3.6 Numerical Examples; 2.4 Essential Points in MoM for Solving Other Problems; 2.4.1 Scattering from Two-Dimensional Objects; 2.4.2 Scattering from Periodic Structures; 2.4.3 Scattering from Two-and-Half-Dimensional Objects; 2.4.4 Radiation Problems; References; 3 Finite-Element Method; 3.1 Eigenmodes Problems of Dielectric-Loaded Waveguides; 3.1.1 Functional Formulation; 3.1.2 Choice of Basis Functions.
505 8 _a3.1.3 Discretization of the Functional; 3.1.4 Imposition of the Boundary Condition; 3.1.5 Solution of the Generalized Eigenvalue Equation; 3.1.6 Computer Programming; 3.1.7 Numerical Examples; 3.2 Discontinuity Problem in Waveguides; 3.2.1 Functional Formulation; 3.2.2 Choice of the Basis Functions; 3.2.3 Discretization of the Functional; 3.2.4 Solution of the Linear Equations; 3.2.5 Extraction of the Scattering Parameters; 3.2.6 Numerical Examples; 3.3 Scattering from Three-Dimensional Objects; 3.3.1 Mathematic Formulation of the Problem; 3.3.2 Writing Computer Program; 3.3.3 Numerical Results.
505 8 _a3.4 Node-Edge Element.
520 _aEssentials of Computational Electromagnetics provides an in-depth introduction of the three main full-wave numerical methods in computational electromagnetics (CEM); namely, the method of moment (MoM), the finite element method (FEM), and the finite-difference time-domain (FDTD) method. Numerous monographs can be found addressing one of the above three methods. However, few give a broad general overview of essentials embodied in these methods, or were published too early to include recent advances. Furthermore, many existing monographs only present the final numerical results.
588 0 _aPrint version record.
650 0 _aElectromagnetism
_xData processing.
650 0 _aElectromagnetism
_xMathematical models.
650 4 _aSCIENCE
_xElectromagnetism.
650 4 _aScience.
650 4 _aPhysics.
650 7 _aSCIENCE
_xPhysics
_xElectricity.
_2bisacsh
650 7 _aSCIENCE
_xPhysics
_xElectromagnetism.
_2bisacsh
650 7 _aElectromagnetism
_xData processing.
_2fast
_0(OCoLC)fst00906593
650 7 _aElectromagnetism
_xMathematical models.
_2fast
_0(OCoLC)fst00906599
655 4 _aElectronic books.
655 7 _aElectronic books.
_2local
700 1 _aSong, Wei.
776 0 8 _iPrint version:
_aSheng, Xin-Qing, 1968-
_tEssentials of Computational Electromagnetics.
_dHoboken : John Wiley & Sons, ©2012
_z9780470829622
856 4 0 _uhttp://dx.doi.org/10.1002/9780470829646
_zWiley Online Library
994 _a92
_bDG1
999 _c18669
_d18628
526 _bps