[分享]补充上一贴 eBook ：Electromagnetic Fields【Second Edition】by Jean G. Van Bladel

由于上一贴附件链接有问题，我在这里送上。 -pXSSa;O9  
 eBook ：Electromagnetic Fields【Second Edition】by Jean G. Van Bladel
[mGLcg6Fw  
Jean G. Van Bladel M1iS(x  
IEEE Antennas and Propagation Society, Sponsor 8eHyL  
IEEE Press Series on Electromagnetic Wave Theory <?4V  
Donald G. Dudley, Series Editor 8q}q{8  
~1vDV>dpE  
C&rkvM8  
Contents X*@dj_,  
Preface xiii ^RtIh-Z.9  
1. Linear Analysis 1 eM?I$ePTN  
1.1 Linear Spaces 2 k{SAvKx=  
1.2 Linear Transformations 5 lv+TD!b   
1.3 The Inversion Problem 8 4u5-7[TZ  
1.4 Green’s Functions 11 Y#P%6Fy  
1.5 Reciprocity 14 Y\?"WGL)p  
1.6 Green’s Dyadics 17 8C9-_Ng`  
1.7 Convergence of a Series 19 -:y,N 9^  
1.8 Eigenfunctions 20 "mvt>X  
1.9 Integral Operators 23 ByNn  
1.10 Eigenfunction Expansions 26 BeoDKdAwY  
1.11 Discretization 30 I75DUJqy]  
1.12 Matrices 33 [}0haTYc4  
1.13 Solution of Matrix Equations: EGF '"L  
Stability 36 hp-<2i^"!  
1.14 Finite Differences 38 l3I:Q^x@  
1.15 Perturbations 43 J,y[[CdH`  
2. Variational Techniques 51 zsyIV!(  
2.1 Stationary functionals 52 l#Y,R 0  
2.2 A Suitable Functional for the (\YltC@q%  
String Problem 53 'Xq|Kf (  
2.3 Functionals for the General FSW_<%  
L Transformation 55 X))/ m[_[  
2.4 Euler’s Equations of Some Ks`J([(W&  
Important Functionals 58 8i#2d1O  
2.5 Discretization of the Trial iVq'r4S  
Functions 60 ~<F8ug#  
2.6 Simple Finite Elements for DjQFi  
Planar Problems 62 iN8zo:&Z  
2.7 More Finite Elements 65 T&u5ki4NE  
2.8 Direct Numerical Solution of C mWgcw1  
Matrix Problems 69 MJ [m  
2.9 Iterative Numerical Solution "8jf81V*  
of Matrix Problems 70 7/@TF/V  
3. Electrostatic Fields in the Presence A1>OY^p3%  
of Dielectrics 77 B; h"lv  
3.1 Volume Charges in Vacuum 77 !/i{
l  
3.2 Green’s Function for _ y8Wn}19f  
Infinite Space 80 Z!z
F\<r  
3.3 Multipole Expansion 83 f=gW]x7'R+  
3.4 Potential Generated by a [H^z-6x:0  
Single Layer of Charge 86 vJc-6EO
 
3.5 Potential Generated by a ']z{{UNUN  
Double Layer of Charge 91 :L@?2),  
3.6 Potential Generated by a /,&<6c-Q@W  
Linear Charge 94 O#~yKqB  
3.7 Spherical Harmonics 98 9YQb&  
3.8 Dielectric Materials 102 1.{z3_S21:  
3.9 Cavity Fields 105 {|_M #w~&  
3.10 Dielectric Sphere in an _w+:Dv~*a  
External Field 108 $f=J2&D,Cz  
3.11 Dielectric Spheroid in an /saIs%(fU  
Incident Field 111 as4;:  
3.12 Numerical Methods 115 dx{bB%?Y\=  
4. Electrostatic Fields in the Presence tla 5B_  
of Conductors 125 (G4at2YLd  
4.1 Conductivity 125 Ed,~1GanY  
4.2 Potential Outside a O{G?;H$  
Charged Conductor 127 ~{B7 k:  
4.3 Capacitance Matrix 133 BmMGx8P  
4.4 The Dirichlet Problem 134 QP8Ei
~  
4.5 The Neumann Problem 137 >xYpNtEs  
4.6 Numerical Solution of the m6&~HfwN  
Charge Density Problem 139 0c'<3@39k|  
4.7 Conductor in an External \[_t]'p  
Field 142 )E@.!Ut4o  
4.8 Conductors in the Presence J0\Fhe0'  
of Dielectrics 146 i&66Fi1  
4.9 Current Injection into a g:D>.lKd  
Conducting Volume 148 >j(_[z|v3  
4.10 Contact Electrodes 153 dIa+K?INX  
4.11 Chains of Conductors 158 `nv~NLkl  
5. Special Geometries for the L Mbn  
Electrostatic Field 167 7#ibN!  
5.1 Two-Dimensional Potentials l%puHZ)t  
in the Plane 167 #9}D4i.`}  
5.2 Field Behavior at a D] jzAx  
ConductingWedge 171 ukfQe }I  
5.3 Field Behavior at a wb5baY9  
DielectricWedge 175 Cc' 37~6~P  
5.4 Separation of Variables in )Y6 +  
Two Dimensions 177 mD0f<gJ1  
5.5 Two-Dimensional Integral zrL$]Oy}x  
Equations 181 Ug t.&IA  
5.6 Finite Methods in K&ZtRRDd  
Two Dimensions 185 A8fOQ  
5.7 Infinite Computational %.Fi4}+O  
Domains 188 Z/;(fL  
5.8 More Two-Dimensional &5spTMw8  
Techniques 192 aS{n8P6vW  
5.9 Layered Media 196 rc>4vB_ha  
5.10 Apertures 199 k,E{C{^M  
5.11 Axisymmetric Geometries 203 wh\}d4gN  
5.12 Conical Boundaries 207 5k3b3&  
6. Magnetostatic Fields 221
gk[aM~p  
6.1 Magnetic Fields in Free N~d?WD\^  
Space: Vector Potential 221 _A5e{Gb  
6.2 Fields Generated by >:S?Mnv6  
Linear Currents 224 EQyC1j  
6.3 Fields Generated by 6?mibvK  
Surface Currents 227 T/Gz94c  
6.4 Fields at Large Distances B^Nf #XN(  
from the Sources 229 [.8BTj1%  
6.5 Scalar Potential in %C'?@,7C  
Vacuum 232 YpZ+n*&+  
6.6 Magnetic Materials 234 fk[-mZ  
6.7 Permanent Magnets 236 t?ZI".>  
6.8 The Limit of Infinite +xSHL|:b  
Permeability 239
] =xE  
6.9 Two-Dimensional Fields !M]uL&:  
in the Plane 244 `H_3Uc  
6.10 Axisymmetric Geometries 249 Lh"<XYY  
6.11 Numerical Methods: 5k3n\sqZA  
Integral Equations 251 2LL'J7  
6.12 Numerical Methods: w%VU/6
~  
Finite Elements 253 c74.< @w  
6.13 Nonlinear Materials 258 ]Svt`0|}  
6.14 Strong Magnetic Fields and 7 60Y$/Wz  
Force-Free Currents 260 z8~NZ;A  
7. Radiation in Free Space 277 #`iB`|  
7.1 Maxwell’s Equations 277 @ ZwvBH  
7.2 TheWave Equation 280 Ar|0b}=)>  
7.3 Potentials 282 wj<6kG  
7.4 Sinusoidal Time Dependence: M~#gRAUJ  
Polarization 286 9J*\T(W  
7.5 Partially Polarized Fields 290
ygS;$2m%2  
7.6 The Radiation Condition 293 fue(UMF~  
7.7 Time-Harmonic Potentials 296 Sh~dwxp*"
 
7.8 Radiation Patterns 300 ^qvbqfh  
7.9 Green’s Dyadics 303 Ae^~Cz1qz  
7.10 Multipole Expansion 307 #$+*;  
7.11 Spherical Harmonics 313 JEwa
&  
7.12 Equivalent Sources 320 BB$>h}  
7.13 LinearWire Antennas 327 ?|C2*?hZ+  
7.14 CurvedWire Antennas: -.@r#d/  
Radiation 333 =:,g  
7.15 Transient Sources 337 kr5">"7  
8. Radiation in a Material i2U{GV<K-r  
Medium 357 He/8=$c%  
8.1 Constitutive Equations 357 qu6D 5t  
8.2 PlaneWaves 370 ;Ax }KN7  
8.3 Ray Methods 377 N1S{suic  
8.4 Beamlike Propagation 388 vq0Tk bzs  
8.5 Green’s Dyadics 392 TnOggpQ6X  
8.6 Reciprocity 397 qIE9$7*X  
8.7 Equivalent Circuit 6V:U(g  
of an Antenna 402 |
'8Nh  
8.8 Effective Antenna Area Lpz>>}  
9.1 PlaneWave Incident on a S6M}WR^,  
Plane Boundary 423 ?.-wnz  
9.2 Propagation Through a #7$ H  
Layered Medium 442 eIEeb,#i  
9.3 The Sommerfeld A5RN5`}  
Dipole Problem 448 4*#18<u5  
9.4 Multilayered Structures 452 k&q;JyUi  
9.5 Periodic Structures 460 omu|yCK  
9.6 Field Penetration Through IH&|Tcf\  
Apertures 478 m6K}|j  
9.7 Edge Diffraction 490 v0+BkfU+p  
10. Resonators 509 L>&t|T2  
10.1 Eigenvectors for an F>6|3bOR  
Enclosed Volume 509 ,~$p,ALwN7  
10.2 Excitation of a Cavity 514 ,RI Gc US  
10.3 Determination of the sPQQ"|wU  
Eigenvectors 517 UiP"Ixg6  
10.4 Resonances 525 _|\~q[ep  
10.5 Open Resonators: Dielectric 4Zddw0|2  
Resonances 529 L>NL:68yN  
10.6 Aperture Coupling 540 T|op$ s|  
10.7 Green’s Dyadics 544 n)e 6>R;  
11. Scattering: Generalities 563 @|m/djN5x  
11.1 The Scattering Matrix 563 D~iz+{Q4  
11.2 Cross Sections 568  c(E{6g?  
11.3 Scattering by a Sphere 574 4JXeV&5Qk'  
11.4 Resonant Scattering 582 Jk11fn;\>  
11.5 The Singularity Expansion _QE qk@ql  
Method 586 (ejvF):|  
11.6 Impedance Boundary =tn)}Y.<e  
Conditions 598 rjAn@!|:+  
11.7 Thin Layers 601 Jbg/0|1  
11.8 Characteristic Modes 604 l -mfFN  
12. Scattering: Numerical Methods 617 ,vawzq[oSy  
12.1 The Electric Field Integral I)6+6pm  
Equation 617 ww3-^v  
12.2 The Magnetic Field Integral 7\[@m3s  
Equation 624 NC`aP0S  
12.3 The T-Matrix 629 [z\$?VJspQ  
12.4 Numerical Procedures 633 S-b/S5  
12.5 Integral Equations for t%FwXaO#  
Penetrable Bodies 639 <CiSK!  
12.6 Absorbing Boundary ^4hO  
Conditions 646 8)3*6+D  
12.7 Finite Elements 651 beGa#JH,  
12.8 Finite Differences in the @6sqMw}  
Time Domain 654 uc\Kg1{  
13. High- and Low-Frequency %y[h5*y*  
Fields 671 *?>T,gx}  
13.1 Physical Optics 671 b<ZIWfs  
13.2 Geometrical Optics 676 
9(7-{,c  
13.3 Geometric Theory of OU.6bmWy|  
Diffraction 681 TnA-;Ha  
13.4 Edge Currents and Equivalent Tc:)- z[o  
Currents 689 ^j7Vt2-  
13.5 Hybrid Methods 692 mh#a#<  
13.6 Low-Frequency Fields: w<3#1/g!2B  
The Rayleigh Region 695 >J?fl8  
13.7 Non-Conducting Scatterers F6|]4H.3Q  
at Low Frequencies 696 6OIte-c  
13.8 Perfectly Conducting D|p9qe5%  
Scatterers at Low /NFj(+&g+  
Frequencies 699 eHZws`W  
13.9 Good Conductors 707 ZzpUUH/r  
13.10 Stevenson’s Method $G+@_'  
Applied to Good +Q)XH>jh  
Conductors 711 GPudaF{  
13.11 Circuit Parameters 715 n\D&!y[]F  
13.12 Transient Eddy Currents 719 0<@KG8@hI;  
14. Two-Dimensional Problems 733 )[IC?U:5I  
14.1 E and H Waves 733 <w9JRpFY  
14.2 Scattering by Perfectly yYYSeH  
Conducting Cylinders 738 hEH?[>9  
14.3 Scattering by Penetrable 9>/4W.  
Circular Cylinders 743 5d^sA;c  
14.4 Scattering by Elliptic !hy-L_wL]  
Cylinders 746 N!=v4f  
14.5 Scattering byWedges 749 {duz\k2  
14.6 Integral Equations for Y=I'czg  
Perfectly Conducting ,PW'#U:  
Cylinders 751 Tv=mgH=b  
14.7 Scattering by Penetrable 7U"g3a)=  
Cylinders 759 n'LrQU  
14.8 Low-Frequency Scattering mdDOvm:&  
by Cylinders 764 lNh70G8^p  
14.9 Slots in a Planar Screen 770 783,s_  
14.10 More Slot Couplings 778 sb*G!8j  
14.11 Termination of a v$v-2y'%  
Truncated Domain 786 "m8^zg hL  
14.12 Line Methods 792 C2I_%nU Z1  
15. CylindricalWaveguides 813 aFm_;\  
15.1 Field Expansions in a
LL|r A:  
ClosedWaveguide 814 ie95rZp  
15.2 Determination of the p27~>xQ  
Eigenvectors 818 &h)yro  
15.3 Propagation in a Closed 6;d*r$0Fc  
Waveguide 822 4l'fCZhA}  
15.4 Waveguide Losses 832 v{N`.~,^  
15.5 Waveguide Networks 837 !i}w~U<  
15.6 Aperture Excitation R+z2}}Z!`  
and Coupling 844 _6hQ %hv8  
15.7 GuidedWaves in F~W6Bp^W  
General Media 859 M FMs[+2_o  
15.8 Orthogonality and 7Q9 w?y~c  
Normalization 865 "+nRGEs6  
15.9 DielectricWaveguides 873 .!3|&V'<  
15.10 Other Examples lb3bm)@:  
ofWaveguides 882 &PHTpkaam  
16. Axisymmetric and Conical Iyn(?w  
Boundaries 905 3jU&zw9  
16.1 Field Expansions for \?-<4Bc@  
Axisymmetric Geometries 905 ,w4(kcg%iQ  
16.2 Scattering by Bodies of +@f26O7$*  
Revolution: Integral pYEMmZ?L  
Equations 908 '<)n8{3Q5w  
16.3 Scattering by Bodies of gZXi]m&  
Revolution: Finite xLajso1g69  
Methods 912 lrE5^;/s1  
16.4 Apertures in Axisymmetric 2@
],ZLa  
Surfaces 915 & J'idYD  
16.5 The ConicalWaveguide 918 *:7rdzn  
16.6 Singularities at the I$G['`XX/  
Tip of a Cone 926 O8r|8]
o  
16.7 Radiation and Scattering 4F:\-O  
from Cones 930 f'RX6$}\1X  
17. Electrodynamics of Moving Bodies 943 V=l0(03j~  
17.1 Fields Generated by a _;
y9
$"A  
Moving Charge 943 Wvh#:Z  
17.2 The Lorentz ;JT-kw6l5K  
Transformation 946 &Z@o Q
 
17.3 Transformation of Fields Bkc4TO  
and Currents 950 khxnlry  
17.4 Radiation from Sources: fTec  
the Doppler Effect 955 +Kc
  
17.5 Constitutive Equations and  8dA~\a  
Boundary Conditions 958 <'Eme  
17.6 Material Bodies Moving eo?bL$A[s  
Uniformly in Static Fields 960 V f&zL Sgr  
17.7 Magnetic Levitation 962 (5YM?QAd  
17.8 Scatterers in Uniform
H%tdhu\e  
Motion 966 ^{`exCwMx  
17.9 Material Bodies in Z5n1@a__  
Nonuniform Motion 972 b8t7u  
17.10 Rotating Bodies of 9.-S(ZO  
Revolution 974 C{rcs'  
4pF*"B  

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谢谢 2/=l|!JKLz  
bsA-2*Q+  
你的资料好全啊

谢谢啦 好东东a

谢谢 }KKY6D|d>  
lz0TK)kuC  
你的资料好全啊 c8M2 ^{O,`  
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http://www.amazon.com/Electromagnetic-Fields-IEEE-Press-Theory/dp/0471263885/ref=sr_11_1?ie=UTF8&qid=1230357805&sr=11-1 h<[+HsI  
8gmn6dCf  
A@$fb}CF  
amazon.com的书评： %f[Ep 3D  
{.#zHL ;  
LnMwx#^*  
2 of 2 people found the following review helpful: ":d*dl  
5.0 out of 5 stars Fantastic !!!!!!!!!, June 16, 2007 VVrwOoCN  
By     Venkatram Krishnan "Ram" (USA) - See all my reviews |r~ uos  
(REAL NAME)   {=At#*=A  
I specialize in Electromagnetic Theory and have read many texts on this subject matter. There are many very good texts out there but nothing even compares with this one. I thought this would be a copy from various other excellent books by Collin, Jackson, Felsen, etc. but I was wrong. Prof. Bladel has written everything of his own originality. There is a spark of his originality in everything ranging from the quality of explanations, the choice of subject matter, the extreme mathematical depth involved and the choice of unsolved problems. In every way, this book alone can replace five to six other ordinary books. ! VRI_c  
`f'C[a"  
In elecromagnetics, the biggest problem lies in understanding. The more you learn, the lesser you understand and the mathematics can be demoralizing. And also a vast portion of the literature is scattered throughout so many books. But Dr.Bladel has beautifully brought all that together under one roof and has presented the subject in a very theoretically fine manner doing complete justice to the mathematical intricacies. hZNEv|  
j=.g:&r)  
This book is a MUST if you want to call yourself a specialist in electromagnetics. It is a tome and the epitome of all good EM books !!!!!!!!! It is the "Stratton" of the 21st century !!!!!!!

太好了,谢谢,一直在找了,总算找到了..

  a very good book. Thank you!