[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。 vKC>t95  
 eBook ：Electromagnetic Fields【Second Edition】by Jean G. Van Bladel \2`U$3Q  
Jean G. Van Bladel <b\urtoJ  
IEEE Antennas and Propagation Society, Sponsor dB5DJ:$W$  
IEEE Press Series on Electromagnetic Wave Theory T,fz/5w  
Donald G. Dudley, Series Editor R[c_L=  
1}pR')YL[  
/b|sv$BN  
Contents |3LMVN  
Preface xiii ]*|K8&jxl  
1. Linear Analysis 1 \);rOqh  
1.1 Linear Spaces 2 Sf8d|R@O  
1.2 Linear Transformations 5 }NXESZYoi  
1.3 The Inversion Problem 8 y)}aySQK^  
1.4 Green’s Functions 11 (G VGoh&  
1.5 Reciprocity 14 AL0Rn e N  
1.6 Green’s Dyadics 17 bqO"k t  
1.7 Convergence of a Series 19 cOQy|v`KD,  
1.8 Eigenfunctions 20 9?8`"v  
1.9 Integral Operators 23 2YyZiOMSc  
1.10 Eigenfunction Expansions 26 z#4g,)ZX  
1.11 Discretization 30 "Tv7*3>  
1.12 Matrices 33 +*V; f,  
1.13 Solution of Matrix Equations: kXr%73s  
Stability 36 ?>Aff`dHY  
1.14 Finite Differences 38 u_BSWhiW  
1.15 Perturbations 43 =+p+_}C  
2. Variational Techniques 51 @2gMtf?<  
2.1 Stationary functionals 52 UVK"%kW#(  
2.2 A Suitable Functional for the y#+o*(=fRE  
String Problem 53 F?=u:
 
2.3 Functionals for the General 0pF
HE>  
L Transformation 55 3_$eQ`AAA  
2.4 Euler’s Equations of Some 5[_8N{QC;  
Important Functionals 58 `cpcO  
2.5 Discretization of the Trial 8;8}Oq  
Functions 60 Q-v[O4y~  
2.6 Simple Finite Elements for x8Sq+BY  
Planar Problems 62 Kxn7sL$]=F  
2.7 More Finite Elements 65 nlW&(cH  
2.8 Direct Numerical Solution of `?x$J 6p  
Matrix Problems 69 .a*$WGb  
2.9 Iterative Numerical Solution <Xx\F56zp  
of Matrix Problems 70 \0h/~3  
3. Electrostatic Fields in the Presence &pm{7nH  
of Dielectrics 77 16|S 0 )  
3.1 Volume Charges in Vacuum 77 p/h&_^EXU  
3.2 Green’s Function for i7V~LO:gq  
Infinite Space 80 w|C~{  
3.3 Multipole Expansion 83 #=(op?]  
3.4 Potential Generated by a EcIQ20Z_-  
Single Layer of Charge 86 @3YuV=QfH  
3.5 Potential Generated by a fP58$pwu  
Double Layer of Charge 91 !\1W*6U8;  
3.6 Potential Generated by a d&`j8O  
Linear Charge 94 Tm52=+uf$  
3.7 Spherical Harmonics 98 LltguNM$  
3.8 Dielectric Materials 102 09Y?!,  
3.9 Cavity Fields 105 or}*tSKX  
3.10 Dielectric Sphere in an de9l;zF  
External Field 108 RWFf-VA?  
3.11 Dielectric Spheroid in an I&8m5F?$`  
Incident Field 111 M%xL K7  
3.12 Numerical Methods 115 070IBAk}_  
4. Electrostatic Fields in the Presence P*`xiTA  
of Conductors 125 ^z^e*<{WEl  
4.1 Conductivity 125 "Q{~Bj~  
4.2 Potential Outside a `aL|qyrq#  
Charged Conductor 127 |+-i'N9  
4.3 Capacitance Matrix 133 4Z9wzQ>  
4.4 The Dirichlet Problem 134 *]R0z|MW  
4.5 The Neumann Problem 137 k&iDJt  
4.6 Numerical Solution of the #Hi]&)p_  
Charge Density Problem 139 !m(L0YH  
4.7 Conductor in an External *`Xx_  
Field 142 mo
[<4Uks  
4.8 Conductors in the Presence )C]&ui~1  
of Dielectrics 146 Ch"8cl;Fm  
4.9 Current Injection into a :xS&Y\ry  
Conducting Volume 148 7CM03R[P  
4.10 Contact Electrodes 153 E5G"QnxR>N  
4.11 Chains of Conductors 158 (M,VwwN  
5. Special Geometries for the ApYud?0b  
Electrostatic Field 167 Cfo 8gX*  
5.1 Two-Dimensional Potentials aG
b. Lh9  
in the Plane 167 +\GZ(!~  
5.2 Field Behavior at a L~y tAZ,  
ConductingWedge 171 zK4 8vo  
5.3 Field Behavior at a ) Zo_6%  
DielectricWedge 175 /1~|jmi(  
5.4 Separation of Variables in ,M.!z@  
Two Dimensions 177 8sIA;r%S  
5.5 Two-Dimensional Integral X|E+K  
Equations 181 cO+Xzd;838  
5.6 Finite Methods in B36puz 0{  
Two Dimensions 185 &4&33D  
5.7 Infinite Computational ~+
s*\~  
Domains 188 $?J+dB  
5.8 More Two-Dimensional 7[v@*/W@  
Techniques 192 jS3(>  
5.9 Layered Media 196 s^YTI\L \  
5.10 Apertures 199
aq+IC@O  
5.11 Axisymmetric Geometries 203 I9un  
5.12 Conical Boundaries 207 aT:AxYn8  
6. Magnetostatic Fields 221 kgapTv>q  
6.1 Magnetic Fields in Free 6$s0-{^  
Space: Vector Potential 221 k\sM;bCv7  
6.2 Fields Generated by x2;i< |  
Linear Currents 224 B$TChc3B  
6.3 Fields Generated by 1Uemsx%'k  
Surface Currents 227 =lC;^&D-0/  
6.4 Fields at Large Distances 6QLQ1k`  
from the Sources 229 }"?nU4q;S  
6.5 Scalar Potential in TT2cOw  
Vacuum 232 fA_%8CjI  
6.6 Magnetic Materials 234  [AZaT  
6.7 Permanent Magnets 236 u}}9j&^Xa  
6.8 The Limit of Infinite
guOSO@  
Permeability 239 (y~la
W!  
6.9 Two-Dimensional Fields #CA%]*l
*F  
in the Plane 244 a=*ALd_&0  
6.10 Axisymmetric Geometries 249 mPfUJ#rS  
6.11 Numerical Methods: poQdI?ed,  
Integral Equations 251 + sywgb)  
6.12 Numerical Methods: Z@,PZ  
Finite Elements 253 >*= =wlOB  
6.13 Nonlinear Materials 258 7AO3-; l]  
6.14 Strong Magnetic Fields and {[,Wn:  
Force-Free Currents 260 %x}&=zx0*1  
7. Radiation in Free Space 277 o"#TZB+k
 
7.1 Maxwell’s Equations 277 B3dA%\'  
7.2 TheWave Equation 280 o)#q9Vk%b  
7.3 Potentials 282 UV']NHh  
7.4 Sinusoidal Time Dependence: FL`1yD^2  
Polarization 286 ~mK-8U4>K,  
7.5 Partially Polarized Fields 290 <r<Dmn|\a  
7.6 The Radiation Condition 293 _}zo /kDA  
7.7 Time-Harmonic Potentials 296 &IRA=nJ  
7.8 Radiation Patterns 300 VX;zZ`BJ  
7.9 Green’s Dyadics 303 L$lo~7<]  
7.10 Multipole Expansion 307 Zj1ZU[BEcL  
7.11 Spherical Harmonics 313 6Q2orn[
 
7.12 Equivalent Sources 320 '<%Nw-  
7.13 LinearWire Antennas 327 @P_C%}(<  
7.14 CurvedWire Antennas: @A2/@]HBm  
Radiation 333 to&N22a$  
7.15 Transient Sources 337 4|6&59?pnc  
8. Radiation in a Material "7kgez#Y  
Medium 357 'h^-t^:<>b  
8.1 Constitutive Equations 357 -@ZzG uS(  
8.2 PlaneWaves 370 =R&)hlm  
8.3 Ray Methods 377 /&]-I$G@  
8.4 Beamlike Propagation 388 @ /UOSU  
8.5 Green’s Dyadics 392 2cCWQ"_,  
8.6 Reciprocity 397 ?7yQ&p  
8.7 Equivalent Circuit x
d^&_P$=  
of an Antenna 402 .pM &jni Y  
8.8 Effective Antenna Area h L]8e>a?  
9.1 PlaneWave Incident on a X`yNR;>  
Plane Boundary 423 jCTy:q]  
9.2 Propagation Through a psIkG0 &  
Layered Medium 442 Dac ^*k=D  
9.3 The Sommerfeld <i}q=%W!1  
Dipole Problem 448 "xvtqi,R  
9.4 Multilayered Structures 452 ;TL(w7vK  
9.5 Periodic Structures 460
$ViojW>  
9.6 Field Penetration Through sDLS*467  
Apertures 478 \|2tTvW,0  
9.7 Edge Diffraction 490 f?%qUD_#  
10. Resonators 509 ;Z ]<S_#-  
10.1 Eigenvectors for an 7E$eN8H  
Enclosed Volume 509 :E>&s9Yj?  
10.2 Excitation of a Cavity 514 iV?` i  
10.3 Determination of the %z*29iKlI  
Eigenvectors 517 m[Z6VHn  
10.4 Resonances 525 WP0 #i~3*  
10.5 Open Resonators: Dielectric <S]KaDu^  
Resonances 529 ?k{|Lk  
10.6 Aperture Coupling 540 bh6d./  
10.7 Green’s Dyadics 544 S dIGU[fm  
11. Scattering: Generalities 563 yp=|7  
11.1 The Scattering Matrix 563 %p0b{P j_p  
11.2 Cross Sections 568 9i0M/vx  
11.3 Scattering by a Sphere 574 K`h
z t  
11.4 Resonant Scattering 582 u4:\UC'  
11.5 The Singularity Expansion aZ`<PdA  
Method 586 tM&n3MWQ  
11.6 Impedance Boundary $^}[g9]1  
Conditions 598 k}D[Hp:m  
11.7 Thin Layers 601 r4E`'o[  
11.8 Characteristic Modes 604 }>V/H]B  
12. Scattering: Numerical Methods 617 E{uf\Fc
 
12.1 The Electric Field Integral 5k69F  
Equation 617 ^J8uhV;w  
12.2 The Magnetic Field Integral $+Vmw
d;  
Equation 624 }6).|^]\'  
12.3 The T-Matrix 629 [UMLx  
12.4 Numerical Procedures 633 ?*[\UC  
12.5 Integral Equations for DU;[btK>  
Penetrable Bodies 639 %c]nWR+/  
12.6 Absorbing Boundary %yp5DD}|  
Conditions 646 B&?fM~J  
12.7 Finite Elements 651 vYDSu.C@a  
12.8 Finite Differences in the *=Doe2(!C  
Time Domain 654 +UzXN
$73  
13. High- and Low-Frequency bFg*l$`5  
Fields 671 a mqOxb  
13.1 Physical Optics 671 OB~C}'^$  
13.2 Geometrical Optics 676 Y %K~w  
13.3 Geometric Theory of Va7c#P?  
Diffraction 681 #e/2C  
13.4 Edge Currents and Equivalent Y
+g,pX  
Currents 689 a:A n=NA  
13.5 Hybrid Methods 692 +'|{1gB  
13.6 Low-Frequency Fields: B/mYoK  
The Rayleigh Region 695 PWvSbn6  
13.7 Non-Conducting Scatterers V
JDoH  
at Low Frequencies 696 vQ 4}WtvA  
13.8 Perfectly Conducting U;g S[8,p  
Scatterers at Low ]ni6p&b>  
Frequencies 699 CM9XPr  
13.9 Good Conductors 707 4U?<vby  
13.10 Stevenson’s Method ^
Hg/P8q  
Applied to Good eIg+PuQD]  
Conductors 711 D*\v0=P'?  
13.11 Circuit Parameters 715 i^*M^P3m  
13.12 Transient Eddy Currents 719 +{.780|  
14. Two-Dimensional Problems 733 qe$33f*  
14.1 E and H Waves 733
2Z)4(,  
14.2 Scattering by Perfectly QdDObqVdy  
Conducting Cylinders 738 {)xWD%  
14.3 Scattering by Penetrable 03EV%Vc  
Circular Cylinders 743 d",(aZ  
14.4 Scattering by Elliptic >GXXjAIu/  
Cylinders 746 XA)'=L!^  
14.5 Scattering byWedges 749 w9f _b3  
14.6 Integral Equations for GAw(mH*  
Perfectly Conducting KY$k`f6?P  
Cylinders 751 #{$1z;i?f  
14.7 Scattering by Penetrable edijfhn  
Cylinders 759 r?p[3JJ;mG  
14.8 Low-Frequency Scattering l$a?A[M$  
by Cylinders 764 D9BQID$R  
14.9 Slots in a Planar Screen 770 zBY~lNB  
14.10 More Slot Couplings 778 @'i+ff\  
14.11 Termination of a +@ MPQv  
Truncated Domain 786 ?^9BMQ+  
14.12 Line Methods 792 N}b^fTq  
15. CylindricalWaveguides 813 ;~+]! U  
15.1 Field Expansions in a X*F_<0RC1  
ClosedWaveguide 814 W;zpt|kAH  
15.2 Determination of the dU]/$7  
Eigenvectors 818 l!?yu]Yon  
15.3 Propagation in a Closed *%!M4&  
Waveguide 822 6Ps.
E  
15.4 Waveguide Losses 832 FI"HJwAs  
15.5 Waveguide Networks 837 5Fbs WW2  
15.6 Aperture Excitation B+] D5K  
and Coupling 844 =dzWmL<~8  
15.7 GuidedWaves in PLA#!$c7q  
General Media 859 gKo%(6{n~  
15.8 Orthogonality and 6e
&$l-  
Normalization 865 XF*.Jg]  
15.9 DielectricWaveguides 873 A]o4Mf0>I  
15.10 Other Examples Bz /@c)  
ofWaveguides 882 E{y1S\7K  
16. Axisymmetric and Conical 6L9,'Bg  
Boundaries 905 q.Jsf+  
16.1 Field Expansions for =']3(6*  
Axisymmetric Geometries 905 BT,b-= ;J-  
16.2 Scattering by Bodies of UDEj[12S  
Revolution: Integral ]Gv!M?:  
Equations 908 h3!$r~T!a:  
16.3 Scattering by Bodies of lnh+a7a)  
Revolution: Finite 8Pmdk1 ~  
Methods 912 (R*j|HAw`X  
16.4 Apertures in Axisymmetric jlqv2V7=/  
Surfaces 915 $,fy$ Qk,S  
16.5 The ConicalWaveguide 918 g(Yb^'X/  
16.6 Singularities at the 0uvzxmN  
Tip of a Cone 926 +=BAslk  
16.7 Radiation and Scattering ,.tfWN%t\  
from Cones 930 $s-Y%gc  
17. Electrodynamics of Moving Bodies 943 9GU]l7C=z  
17.1 Fields Generated by a ;H'gT+t<c  
Moving Charge 943 S($Su7g%_  
17.2 The Lorentz ]:ZdV9`  
Transformation 946 A+getdr  
17.3 Transformation of Fields b2C`g]ibQ  
and Currents 950 lg$zGa?  
17.4 Radiation from Sources: % 0T+t.  
the Doppler Effect 955 F$V/K&&W  
17.5 Constitutive Equations and i-" p)2d=#  
Boundary Conditions 958 !w39FfU{  
17.6 Material Bodies Moving LWfqEL -  
Uniformly in Static Fields 960 -0C@hM,wm  
17.7 Magnetic Levitation 962 k*mt4~KLT8  
17.8 Scatterers in Uniform Yg9
joNBh  
Motion 966 3Ot~!AlR  
17.9 Material Bodies in ?jx1R^  
Nonuniform Motion 972 QDx$==Fo  
17.10 Rotating Bodies of ZcJ\ZbE|  
Revolution 974 9X$ma/P[  
vBcq_sbo  

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谢谢 76Cl\r
V  
S3%FHS  
你的资料好全啊

谢谢啦 好东东a

谢谢 yM6pd U]i  
<yV"6/l0  
你的资料好全啊 9d0@wq.  
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這是很有用的資料喔~

http://www.amazon.com/Electromagnetic-Fields-IEEE-Press-Theory/dp/0471263885/ref=sr_11_1?ie=UTF8&qid=1230357805&sr=11-1 &i6mW8l  
%)W2H^  
OX!tsARC@  
amazon.com的书评： u'DRN,h+  
sY Q
k  

4N3R|  
2 of 2 people found the following review helpful: J/aC}}5D  
5.0 out of 5 stars Fantastic !!!!!!!!!, June 16, 2007 Y eo]]i{  
By     Venkatram Krishnan "Ram" (USA) - See all my reviews dn
+KH+v  
(REAL NAME)   _C?hHWSf"  
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. mR:uj2*  
mxC;?s;~  
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. /nNN,hz  
q"J]%zO  
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!