王薪,清华大学电子工程系学士、硕士,美国普渡大学(Purdue University)电气与计算机工程博士,2002年至2004年,在美国伊利诺伊大学厄巴纳-尚佩恩分校(University of Illinois at Urbana-Champaign, UIUC)的计算电磁学中心担任研究助理工作,2009年至2010年在美国普渡大学Birck纳米研究中心担任博士后副研究员,目前担任南京航空航天大学电子信息工程学院副教授,主要从事电磁场与微波技术、超宽带脉冲无线电、计算电磁方法、微波遥感等方面的研究和教学工作。
目錄:
Chapter 1Vector Analysis(矢量分析)
1.1Introduction(引言)
1.2Vector Representation(矢量的表示方式)
1.3Addition and Subtraction(矢量的加减法)
1.4Products of Vectors(矢量乘积)
1.4.1Multiplication by scalars(数乘)
1.4.2Dot Product/Scalar Product(点积/标量积)
1.4.3Cross Product/Vector Product(叉积/矢量积)
1.4.4Scalar and vector triple products(标量/矢量三重积)
1.5Orthogonal Coordinate Systems(正交坐标系)
1.5.1Cartesian Coordinates(笛卡儿坐标)
1.5.2Cylindrical Coordinates(圆柱坐标)
1.5.3Spherical Coordinates(圆球坐标)
1.6Integrals of Vector Fields(矢量场的积分)
1.7Gradient of a Scalar Field(标量场的梯度)
1.8Divergence of a Vector Field(矢量场的散度)
1.9Divergence Theorem(散度定理)
1.10Curl of a Vector Field(矢量场的旋度)
1.11Stokes’s Theorem(斯托克斯定理)
1.12Laplacian Operator(拉普拉斯算子)
1.13Curlfree and Divergencefree Fields(无旋场与无散场)
1.14Helmholtz’s Theorem(亥姆霍兹定理)
Summary
Review Questions
Problems
Chapter 2Static Electric Fields(静电场)
2.1Introduction(引言)
2.2Electric Fields and Charges(电场与电荷)
2.2.1Electric Fields Due to Discrete Charges(离散电荷产生的电场)
2.2.2Electric Fields Due to Continuous Charge Distributions
(连续分布电荷产生的电场)
2.3Divergence of Electrostatic Fields and Gauss’s Law(静电场的散度与高斯定律)
2.4Curl of Electrostatic Fields and Electric Potential(静电场的旋度与电位)
2.4.1Electric Potential Due to Discrete Charges(离散电荷产生的电位)
2.4.2Electric Potential Due to a Continuous Charge Distribution
(连续分布电荷产生的电位)
2.5Conductors in Static Electric Field(静电场中的导体)
2.6Dielectrics in Static Electric Fields(静电场中的介质)
2.7Electric Flux Density and Gauss’s Law(电通密度与高斯定律)
2.8Boundary Conditions for Electrostatic Fields(静电场的边界条件)
2.9Capacitance and Capacitors(电容)
2.10Electrostatic Energy(静电能)
2.10.1Electrostatic Energy in Terms of Charge and Potential
(电荷与电位表示的静电能)
2.10.2Electrostatic Energy in Terms of Electric Field Quantities
(电场表示的静电能)
Summary
Review Questions
Problems
Chapter 3Solution of Electrostatic Boundary Value Problems
(静电场边界值问题求解)
3.1Introduction(引言)
3.2Poisson’s and Laplace’s Equations(泊松方程、拉普拉斯方程)
3.3Uniqueness of Electrostatic Solutions(静电场解的唯一性)
3.4Method of Images(镜像法)
3.4.1Image with Respect to Planes(平面镜像)
3.4.2Image with Respect to Spheres(球面镜像)
3.4.3Image in Cylinders(圆柱面镜像)
3.5Method of Separation of Variables(分离变量法)
Summary
Review Questions
Problems
Chapter 4Steady Electric Currents(恒定电流)
4.1Introduction(引言)
4.2Current Density, Ohm’s Law and Joule’s Law(电流密度、欧姆定律与焦耳定律)
4.3Divergence of Current Density and Conservation of Charge
(电流密度的散度与电荷守恒定律)
4.4Curl of Steady Electric Field and Electromotive Force(恒定电场的旋度与电动势)
4.5Boundary Conditions for Current Density(电流密度的边界条件)
4.6Resistance Calculations(电阻计算)
Summary
Review Questions
Problems
Chapter 5Static Magnetic Fields(恒定磁场)
5.1Introduction(引言)
5.2Magnetic Flux Density and BiotSavart Law(磁通密度与比奥萨法定律)
5.3Divergence of Magnetic Flux Density and Vector Magnetic Potential
(磁通密度的散度与矢量磁位)
5.4Curl of Magnetic Flux Density and Ampere’s Circuital Law
(磁通密度的旋度与安培环路定律)
5.5Magnetization and Equivalent Current Densities(磁化与等效电流密度)
5.6Magnetic Field Intensity and Relative Permeability(磁场强度与相对磁导率)
5.7Boundary Conditions for Magnetostatic Fields(恒定磁场的边界条件)
5.8Magnetic Circuits(磁路)
5.9Inductances and Inductors(电感)
5.9.1Selfinductances of thin wires(细线自感)
5.9.2Internal and external inductances(内电感与外电感)
5.9.3Mutual inductances and the Neumann Formula(互感与纽曼公式)
5.10Magnetic Energy(磁能)
5.10.1Magnetic Energy in Terms of Currents and Magnetic Fluxes
(电流和磁通表示的磁能)
5.10.2Magnetic Energy in Terms of Field Quantities(场量表示的磁能)
Summary
Review Questions
Problems
Chapter 6TimeVarying Electromagnetic Fields(时变电磁场)
6.1Introduction(引言)
6.2Curl of TimeVarying Electric Field and Faraday’s Law of Induction
(电场的旋度与法拉第电磁感应定律)
6.3Curl of TimeVarying Magnetic Field and Displacement Current
(时变磁场的旋度与位移电流)
6.4Maxwell’s Equations(麦克斯韦方程组)
6.5Electromagnetic Boundary Conditions(电磁场边界条件)
6.5.1Interface between Two Perfect Dielectrics(两种理想介质分界面)
6.5.2Interface between a Dielectric and a Perfect Conductor
(理想介质与理想导体分界面)
6.6Potential Functions and Wave Equations(位函数与波动方程)
6.6.1Potential functions for timevarying fields(时变场的位函数)
6.6.2Solution of Wave Equations for Potentials(位函数波动方程的解)
6.7Homogeneous Wave Equations in SourceFree Region(无源区域的齐次波动方程)
6.8Poynting Vector and Flow of Electromagnetic Power(坡印廷矢量与电磁功率流)
6.9TimeHarmonic Fields and Waves(时谐场与波)
6.9.1Phasor Expressions of Sinusoidal Field Quantities(正弦场量的相量表示)
6.9.2Phasor Form of Maxwell’s Equations(相量形式的麦克斯韦方程)
6.9.3Nonhomogeneous Helmholtz’s Equations and Phasor Form of Retarded Potential
(非齐次亥姆霍兹方程,推迟位的相量形式)
6.9.4Homogeneous Helmholtz’s Equations in SourceFree Region
(无源区域的齐次亥姆霍兹方程)
6.9.5TimeAverage Power and Energy(时间平均功率与能量)
6.9.6Phasor Form of Poynting’s Theorem(相量形式的坡印廷定理)
Summary
Review Questions
Problems
Chapter 7Uniform Plane Waves(均匀平面波)
7.1Introduction(引言)
7.2Plane Waves in Lossless Medium(无损媒质中的平面波)
7.2.1Transverse Electromagnetic Waves(横电磁波)
7.2.2Polarization of Plane Waves(平面波的极化)
7.3Plane Waves in Lossy Medium(有损媒质中的平面波)
7.3.1Low Loss Dielectrics(低损耗介质)
7.3.2Good Conductors(良导体)
7.3.3Surface Resistance and Surface Impedance(表面电阻与表面阻抗)
7.4Group Velocity(群速度)
Summary
Review Questions
Problems
Chapter 8Plane Wave Reflection and Transmission(平面波的反射与透射)
8.1Introduction(引言)
8.2Normal Incidence at a PEC Planar Boundary(理想导体平面的垂直入射)
8.3Oblique Incidence at a PEC Planar Boundary(理想导体平面的斜入射)
8.3.1Perpendicular Polarization(垂直极化)
8.3.2Parallel Polarization(平行极化)
8.4Normal Incidence at a Dielectric Planar Boundary(理想介质平面的垂直入射)
8.5Normal Incidence at Multiple Dielectric Interfaces(多层介质分界面的垂直入射)
8.5.1Wave Impedance and Impedance Transformation(波阻抗与阻抗变换)
8.5.2Halfwave Dielectric Window and Quarterwave Impedance transformer
(半波长介质窗与1/4波长阻抗变换器)
8.6Oblique Incidence at a Dielectric Planar Boundary(介质平面上的斜入射)
8.6.1Perpendicular Polarization(垂直极化)
8.6.2Parallel Polarization(平行极化)
8.6.3Total Reflection(全反射)
8.6.4Brewster Angle and Total Transmission(布儒斯特角与全透射)
Summary
Review Questions
Problems
Chapter 9Waveguides and Cavity Resonators(波导与谐振腔)
9.1Introduction(引言)
9.2Wave Propagation along Uniform Guiding Structures(均匀波导结构内波的传播)
9.3TEM Waves and TwoConductor Transmission Lines(TEM波与双导体传输线)
9.3.1General Characteristics of TEM Waves(TEM波的一般特征)
9.3.2TEM Waves in Coaxial Lines(同轴线中的TEM波)
9.4TM and TE Waves(横磁波与横电波)
9.4.1General Characteristics of TM Waves(横磁波的一般特征)
9.4.2General Characteristics of TE Waves(横电波的一般特征)
9.5Rectangular Waveguides(矩形波导)
9.5.1TM Waves in Rectangular Waveguides(矩形波导内的TM波)
9.5.2TE Waves in Rectangular Waveguides(矩形波导内的TE波)
9.5.3Attenuation in Rectangular Waveguides(矩形波导的衰减)
9.6Circular Waveguides(圆波导)
9.6.1TM Waves in Circular Waveguides(圆波导内的TM波)
9.6.2TE Waves in Circular Waveguides(圆波导内的TE波)
9.6.3NonTEM Waves in Coaxial Lines(同轴线中的非TEM波)
9.7Cavity Resonators(谐振腔)
9.7.1Rectangular Cavity Resonators(矩形谐振腔)
9.7.2Quality Factor of Cavity Resonator(谐振腔的品质因数)
9.7.3Circular Cavity Resonator(圆形谐振腔)
Summary
Review Questions
Problems