--- 1 2 3 4 5 6 7 8 9 10
--- 3 -dB width, 165
--- 9 -dB per delta rule, 55
acoustic tube models, 183
admittance matrix. 522
Ampere's law, 1
anisotropic materials, S
anisotropic media, 129
antennas
aperture efficiency, 606
--- beam efficiency, 617
--- beam solid angle, 602
--- beamwidth, 599
--- bit-error rate, 624
--- center-loaded, 859
--- circular loop, 652
--- communicating, 612
--- coupled, 902
--- data rate limits, 624
--- directivity, 599
--- dish, 746
--- dish antennas, 606
--- dual-reflector, 763
--- effective area, 604
--- effective length, 610
--- EIRP, 600
--- equivalent circuits, 608
--- free-space loss, 613
--- Friis formula, 612
--- gain, 599
--- gain-beamwidth relationship, 602 , 608
--- geosynchronous satellite, 626
--- ground effects, 776
--- half-wave dipole, 642
--- Hertzian dipole, 636
--- horns, 727
--- lens, 766
--- linear, 634
--- linear wire, 575
--- link budget, 628
--- load mismatch, 611
--- loop, 650
--- microstrip, 740
--- minimum-scattering, 610
--- monopole, 643
--- mutual Impedance, 905
--- noise temperature, 614
--- normalized gain, 601
--- open-ended wavf'guides, 723
--- parabolic reflectors, 746
--- polarization mismatch, 611
--- power density, 599
--- radar equation, 629
--- radiation efficiency factor, 6(M)
--- radiation resistance, 639
--- radiation vector, 636
--- receiving, 598 , 859
--- reflector, 746
--- resonant, 640
--- rhombic, 647
--- satellite links, 626
--- secant antenna gain, 630
--- self impedance, 905
--- small dipoles, 638
--- square loop, 654
--- standing-wave, 638
--- transmitting, 598
--- traveling wave, 645
--- vee, 647
--- Yagi-Uda, 923
antireflection coatings, 167 , 183 , 185
at oblique incidence, 327
aperture antennas, 723
aperture-field method, 751
--- current-distribution method, 751
--- directivity of waveguide apertures, 726
--- dual-reflector, 763
--- horn design, 737
--- horn directivity, 734
--- horn radiation fields, 729
--- horn radiation patterns, 731
--- horns, 727
--- lens, 766
--- microstrip, 740
--- open-ended wa\'f'guides, 723
--- parabolic reflector beamwidth, 748
--- parabolic reflector gain, 748
--- parabolic reflectors, 746
--- reflector radiation patterns, 754
aperture efficiency, 606 , 669
aperture-field method for reflector amennas, 751
apertures
--- 3 -dB angles, 672
aperture efficiency, 669
--- circular, 672
--- diffraction theory, 675
--- directivity of, 668
--- effective area of, 668
--- extinction theorem, 679
--- field equivalence principle, 658
--- Fourier optics, 708
--- Franz diffraction formulas, 678
--- Fresnel diffraction, 682 , 708
--- geometrical theory of diffraction, 694
--- Hu)'gens source, 666
--- Hu)'gens-Fresnel principle, 658
--- Kirchhoff diffraction formulas, 677
--- knife-edge dittraction, 686
--- Kottler's formulas, 663 , 678
--- lenses, 716
--- plane wave spectrum, 703
--- Poisson's spot, 712
--- radiation fields from, 663
--- radiation from, 658
--- radiation vectors of, 664
--- Rayleigh-Sommerfeld theory, 700
--- rectangular, 670
--- Sommerfeld's solution, 694
--- Stratton-Chu diffraction formulas, 677
--- uniform, 670
--- vector dittraction for. 681
apparent depth, 251
Appleton-Hartree equations. 148
array design methods, 799
and FIR filters, 804
--- binomial, 822
--- Blass matrix, 849
--- Butler beams, 848
--- continuous line sources, 814
--- continuous to discrete, 816
--- Dolph-Chmyshev, 823
--- DSP analogies, 804
--- endfire DuHamel, 834
--- Fourier series with windowing, 804
--- frequency-sampling, 811
--- multibeam, 847
--- narrow-beam, low-sideiobe, 818
--- prolate array, 840
--- Riblet method, 828
--- sampled current sources, 815
--- Schelkunoff's zero-placement, 802
--- secant array, 813
--- sector beam, 805
--- spatial sampling theorem, 815
--- Taylor line source, 842
--- Taylor n-bar distribution, 842
--- Taylor's one-parameter, 836
--- Villeneuve, 846
--- Woodward-Lawson, 809 , 816
--- zero mapping, 816
array factor, 770
array pattern multiplication, 770
array processing, 782
array space factor, 770
arrays, 768
array factor, 770
array processing, 782
--- beamwidth, 794
--- beamwidth of uniform array, 788
--- coupled two-element, 911
--- directivity, 790
--- discrete-space Fourier transform, 782
--- DSP analogies, 782
--- grating lobes, 784
--- ground effects, 776
--- interferometry, 784
--- one-dlmensional, 780
--- optimum directivity, 791
--- parallel dipoles, 914
--- parasitic, 920
--- pattern multiplication, 770
--- prolate matrix, 791
--- rectangular window, 787
--- sidelobes of uniform array, 789
--- space factor, 770
--- spatial z-transform, 782
--- steering and scanning, 791
--- translational phase shift, 768
--- uniform, 786
--- very large array, 785
--- very long base line, 785
--- visible region, 782
--- Yagi-Uda, 923
atmospheric refraction, 286
attenuation constant, 55
attenuation in wavf'gUides, 365 , 377
attenuator noise temperature. 619
available gain circles, 554
available power gain. 538
---

B

BAC -CAB rule, 31
backward recursion, s.!1! layer recursions
backward waves, 38
balanced stubs, 502
bandwidth
--- in wavf'gUides, 374
--- noise, 614
--- of dielectric mirrors, 194
beam efficiency, 617
beam solid angle, 602
beamwidth, 599
biaxial media, 130
bilinear transformation, 214
binomial arra)'s, 822
birefingent plasmas, 34
birefringence
--- circular, 129
--- linear, 129
birefringent media, 129
Brewster and critical angles, 347
Brewster angle in, 348
--- critical angle of incidence in, 347
--- giant birefringent optics, 352 , 353 , 357
--- maximum angle of refraction in, 347
--- multilayer structures, 352
--- reflection and refraction, 343
bite-error rate (BER), 624
Blass matrix, 849
Bloch wavenumber, 192
Boltzmann constant, 614
Bouguer's law, 288
boundary conditions, 7
--- for transverse fields, 244
--- matching matrix. 244
BPSK modulation, 624
Brewster angle, 256
--- for birefringent media, 348
--- for lossy media, 258
--- in birefringent media, 347
--- in negative-index media, 294
broadband matching, 223
Butler beams, 848
---

C

canesian coordinaIes, 364 , 590
causality, 82
--- relativistic, 82
cavity resonators, 382
characteristic Impedance, 4 , 44
charge
conservation, 10
--- density, 1
--- rela."(dtion timt:', 11
charge flux, 9
charge form factor, 590
charge rela."(dtion, 22
Chm)'shev transformer, 476
Chm)'shev transformers, 223
chiral media, 129 , 132
chiral media, dichroic. 137
chirp radar, 110
chirping, 100
circular apertures, 672
circular loop antennas. 652
coaxial cables, 405
collision time, 17
communicating antennas, 612
complementary error function, 624
complex refractive index. 54
complex waves, 63 , 258
conductivity model, 20
conductors in magnetic fieids, 33
coqjugate matching, 473
constitutive relations, 3
--- in anisotropic dielectrics, S
--- in chiral media, 132
--- in dispersive materials, S
--- in gyroelectric media, 135
--- in gyromagnetic media, 135
--- 1023
--- in inhomogeneous dielectrics, S
--- in linear isotropic dielectrics, 4
--- in nonlinear dielectrics, S
--- in simple dielectrics, 4
--- in uniaxial and bia.xial media, 130
--- in vacuum, 3
continuous line sources, 814
--- Taylor's ideal line, 818
--- Taylor's one-parameter, 818
coordinate systems, 947
cartesian, 364 , 590
cylindrical, 364 , 590
--- spherical, 590
cosine integrals, 949
coupled antennas, 902
coupled mode theory, 464
--- fiber Bragg gratings, 466
coupled transmission lines, 453
coupled two-element arrays, 911
critical angle of incidence, 248
--- for birefringent media, 347
crosstalk in transmission lines, 459
current-distribution method for reflectors, 751
currents on linear antennas, 852
cutoff wavenumber and frequency. 362
cylindrical coordinates, 364 , 590
---

D

data rate limits, 624
delta-gap generator, 855
density
--- current, 1
--- electric flu.x.l
--- Lorentz force, 3
--- magnetic flu.x. 1
--- momentum, 13 , 33
--- polarization, 8
--- surface charge, 7
--- surface current, 7
--- volume charge, 1
dichroism, linear and circular, 136
dielectric constant, 4
dielectric mirrors, 190
--- bandwidth of, 194
--- Fabry-Perot resonators, 201
--- multiband, 199
--- narrow-band transmission filters, 201
--- omnidirectional, 196
--- shortpass, longpass filters, 200
dielectric model, 17
dielectric polarization, 4
dielectric slab, 160 , 304
--- half-wave, 163
--- quarter-wave, 163
--- reflectionless, 163
dielectric waveguides, 384
diffraction integrals, 949
diffraction theory, 675
diffuse reflection and transmission
--- Kubelka-Munk model of, 469
dipole moment density, 4
dipole radiation, 655
directive gain, 599
directivity, 599
directivity of apertures, 668
discretization of continuous line sources, 814
dish antennas, 606 , 746
dispersion
--- anomalous, 19
--- intermodal, 6
--- material, 6
--- normal, 19
--- wavf'gUide, 6
dispersion coefficient, 97
dispersion compensation, Iul
dispersive materials, S
displacement current, 1
Dolph-Chmyshevarra)'s, 823
Dolph-Chmyshev-Riblet arrays, 828
doppler ambiguity, 117
Doppler effect, 66
Doppler radar, 178
Doppler shift, 175 , 178
double-stub tuner, 504
Drude model, 21
DSFT, discrete-space Fourier transform, 782
DTFT, discrete-time Fourier transform, 782
dual-reflector antennas, 763
duality transformation, 660
dynamic predictive decOIwolutioll. 183
---

E

effective area of an antenna, 604
effective area of apertures, 668
effective length of an antenna, 610
effective noise temperature, 560 , 618
efficiency factor, 600
EIRP, effective isotropic radiated power, 600
electric and magnetic dipoles. 577
electric field, I
electric flux density, 1
electromagnetic frequency bands, 939
elliptic functions, 870
elliptic integrals, 870
endfire DuHamel arra)"s, 834
energy conservation, 12
energy density, 12 , 14 , 25 , 45
energy flIL'\:, 10 , 12 , 45 , 598
energy velocity, 29 , 40
equivalent noise temperature, 620
error function, 624
evanescent waves, 249
--- penetration depth for, 249
Ewald-Oseen extinction theorem, 582
exponential integrals, 949
extinction theorem, 582 , 679
---

F

Fabry-Perot interferometer, 201 , 306
far-field approximation, 587
Faraday rotation, 129 , 136
Faraday's law of induction, 1
Fermat's principle of least time, 279
fiber Bragg gratings, 183 , 201 , 466
--- quarter-wave phase-shifted gratmgs, 201
fiber, single mode, 98
fiber, standard, 98
field equivalence principle, 658
field intensities, 1
fields of dipoles, 577
fields of wire antennas, 575
fingerprint identification, 255
fux
--- charge, 9
--- definition of, 9
--- energy, 10 , 12
--- momentum, 10
--- Poynting vector, 12
flu.'( densities, 1
forward recursion, s.!1! layer reOlrsions
forward waves, 38
Fourier optics, 708
Fourier series method with windowing, 804
Franz dittraction formulas. 678
Fraunhofer region, 589
free-space loss, 613
frequency bands, 939
frequency-sampling array design. 811
Fresnel coefficients, 244 , 245
Fresnel dittraction. 682. 708
Fresnel drag, 177
Fresnel integrals, 949
Fresnel region, 589
Fresnel rhomb, 252
Fresnel zones, 689
Friis formula, 612
frill generator, 855
front delay, 82
front velocity, 82
frustrated total internal reflection, 306
---

G

gain, 599
gain-beamwidth relationship, 602 , 608
Galerkin weighting, 875
gamma-ray bands, 940
gauge transformation, 569
Gauss's laws, 1
geometrical optics, 276
geometrical theory of diffraction, 694
geosynchronous satellite, 603
giant birefringent optics, 137 , 352 , 353 , 357
--- mirrors, 353 , 354
--- reflective polarizers, 356
glass prisms, 250
Goos-Hanchen shift, 253
graded-index optical fibers, 291
grating lobes, 784
gratings, 466
Green's function, 857
Green's function for Helmholz equation, 573
Green's functions, 9+!
Green's identities, 31
ground effects between antennas, 776
ground-penetrating radar, 78
group delay, 82
group index, 97
group refractive index, 30
group velocity, 29 , 30 , 80 , 82 , 92
--- in birefringent media, 140
--- in waveguides, 375
--- slow, fast, and negative, 103
--- superluminal, 83 , 103
group velocity dispersion, 95
gyroelectric media, 129
gyromagnetic media, 129 , 135 , 146
gyrotropic media, 135
---

H

half-wave dipole antennas, 642
half-wave reflectionless slab, 163
Hall effect, 34 , 146
Hallen equation with arbiuary field, 891
Hallen equations for coupled antennas, 929
Hallen integral equation, 854 , 857
--- approximate kernel, 853
--- delta-gap input, 858
--- exact kernel, 853
--- plane-wave input, 858
harmonic time dependence, 13
Helmholtz equations, 364
Hertzian dipole antenna, 636
high resolution microscopy, 255
horn antennas, 727
horn design, 737
horn directivity, 734
horn radiation fields, 729
horn radiation patterns. 731
Huygens source, 666
---

I

impedance
--- mutual, 905
--- self, 905
--- transverse. 63. 240. 242. 362
--- wave, 46
impedance matching, 154.473
--- balanced stubs, 502
--- Chmyshev transformer, 476
--- Chmyshev transformers, 223
--- coqjugate matching, 473
--- double- dnd triple-stub tuners, 504
--- dual-band Chmyshev transformer, 482
--- flat line, 474
--- L-section matching network, 506
--- matching networks, 474
--- microstrip matching circuits, 493
--- one-section transformer, 498
--- 1025
--- Pi-section matching network, 509
--- quarter-wavelength transformer, 183 , 476
--- quarter-wavelength with series section, 488
--- quarter-wavelength with shunt stub, 491
--- reversed matching networks, 516
--- single-stub tuner, 498
--- two-section transformer, 493
impedance matrix, 522
impedance transformers, 187
infrared bands, 940
inhomogeneous materials, 5
inhomogeneous waves, 63 , 258
integral theorems, 941
intermodal dispersion, 6
internal reflection spectroscopy, 255
ilWerse power iteration, 842
ionospheric refraction, 283
isotropic radiator, 599
---

K

Kaiser window, 807 , 836
kernel
--- approximaIe, 853
--- elliptic function representation, 870
--- exact, 853
--- numerical evaluation, 869
--- reduced, 853
King's four-term approximation, 868
King's three-term approximation, 862
Kirchhoff diffraction formulas, 677
knite-edge diffraction, 686
Kottler's formulas, 663
Kramers-Kronig dispersion relations, 6 , 26 , 34
Kubelka-Munk model. 469
---

L

L-section matching network, 506
layer recursions, 213 , 301
--- back-ward, 214
--- forward, 210 , 301
left-handed media, 7 , 70. 292
lens antennas, 766
lenses, 716
Levinson recursion, s.!1! layer recursions
linear antennas, 634
linear prediction, 183
link budget calculation. 628
loop antennas, 650
Lorentz dielectric. 18
Lorentz force, 2
Lorentz transformations, 175 , 961
Lorenz gauge condition, 569
loss tangent, 24 , 58
lossless bounded real functions, 183
lossy media, 52
lossy media, weakly, 58
lossy multilayer structures, 302
low-noise, high-gain, amplifier, 622
lowest usable frequency (LUFJ, 284
---

M

Macneille polarizers, MI! reflective polarizers
magnetic currents, 658 , 660
magnetic field, I
magnetic flux density, 1
magnetic induction, 1
magnetic resonance, 136
magnetization, 4
magnetization current, 6
matched filter, 119
matching, MI! Impedance matching
matching matrices, 154 , 184
matching matrix. 244
matching networks, 474
material dispersion, 6
MATlAB functions:
--- (in, cosine integral Cin, 911 , 954
--- Ci, cosine integral Ci, 911 , 954
--- Gi, Green's function integral, 909 , 954
--- RLClOOvi e, reactive termination, 442
--- Si, sine integral, 911 , 954
--- TDRlOOvi e, time-domain reflectometry, 452
--- abp2, polar gain in absolute units, 919
--- abp, polar gain in absolute units, 602
--- abz2, azimuthal gain in absolute units, 919
--- abz, azimuthal gain in absolute units, 602
--- asi nhc, iIwerse hyperbolic sinh, 838
--- binomial, binomial array, 823
--- bkwree, backward layer recursion, 219
--- b 1 oekmat:, manipulate block matrices, 933
--- brewst:e r, Brewster and critical angles, 348
--- bwi dt:h, array beamwidth, 795
--- e2p, cartesian to phasor form, 562
--- ehebarray, Dolph-Chebyshevarray, 827
--- ehebtr2, Chebyshevtransformer, 227 , 477
--- ehebtr3, Chebyshevtransformer, 227. 477
--- ehebtr, Chmyshev transformer, 227 , 477
--- dbp2, polar gain in dB, 919
--- dbp, polar gain in dB, 602
--- dbz2, azimuthal gain in dB, 775
--- dbz, azimuthal gain in dB, 602
--- dguide, TE modes in dielectric slab, 391
--- di Hi nt:, diffraction integrals, 730 , 952
--- di pdi r, dipole directivity, 641
--- di poovi e, radiating dipole movie, 582
--- di pole, dipole gain, 643
--- dmax, dipole directivity, 643
--- dnv, elliptic function dn, 871
--- dol ph2, Dolph-Chm)"shevarray, 831
--- dolph3, Dolph-Chm)"shevarray, 835
--- dolph, Dolph-Chmyshev array, 827
--- dsine, double sinc function, 725
--- ds 1 ab, cutoff wavenumbers in slab, 391
--- dualband, dual-band transformer, 486
--- dualbw, dual-band bandwidth, 488
--- ell ipE, elliptic integral of 2nd kind, 871
--- ell ipK, elliptic integral of 1st kind, 871
--- ell ipse, polarization ellipse, 52
--- fcs2, Fresnel integrals, 950
--- fcs, Fresnel integrals, 950
--- fresnel, Fresnel coefficients, 247 , 347
--- frwree, forward layer recursion, 219
--- gainld, one-dimensional array gain, 771
--- gain2d, gain of 2D array of dipoles, 934
--- gain2s, gain of sinusoidal dipole array, 917
--- gin, input reflection coefficients, 534
--- gout:, output reflection coefficients, 534
--- gprop, propagation of r, 416
--- grvmoviel, pulsepropagationwithvg 110
--- grvmovie2, pulsepropagationwithvg>c, 110
--- hband, horn bandedges, 730
--- hbasi s, Hallen basis functions, 891
--- heoupled2, coupled Hallen equations, 933
--- heoupled, coupled Hallen equations, 933
--- hde 1 t:a, Hallen equation with delta-gap, 880
--- heff, horn aperture efficiency, 730
--- hfie 1 d, Hallen with arbitrary field, 893
--- hgain, horn gain patterns, 730
--- hmat:, Hallen Impedance matrix. 880
--- hopt, optimum horn design, 730
--- hsigma, horn a parameter, 730
--- hwrap, wrapped Impedance matrix, 880
--- impedmat:, mutual Impedance matrix, 917
--- imped, dipole impedance, 639
--- k2k, cOlwerts to King's primed form, 863
--- keme 1 , e.""-ct and approximate kernel, 871
--- kingeval, King's three-term evaluation, 867
--- king fit:, King's three-term fit, 867
--- ki ng, Kings three-term approximation, 865
--- landev, vectorial Landen transformation. 871
--- lmat:eh, I-section transformer, 508
--- lmin, location of voltage min, max. 430
mst:ripa, microstrip analysis, 404
mst:ripr, microstrip synthesis, 404
mst:rips, microstrip synthesis, 404
--- nu It:beam, multibeam array, 8 -t8
--- nult:idiell, multilayers, simplified, 302
--- nult:idie12, lossy multilayers, 303
--- nult:idiel, multilayer structures, 302 , 352
--- nu It:i li ne, response of multi section line, 476
--- n2r, reflection coefficients, 219
--- nfei re, noise figure circles, 534
--- nfig, calculate noise figure, 534
--- omiband2, birefringent bandwidth, 353
--- omiband, omnidirectional bandwidth, 333
--- oneseet:, one-section transformer, 498
--- p2e, phasor to cartesian form, 562
--- pfie 1 d, soives Pocklington equation, 898
--- pi2t:, n to T transformation, 510
--- pmat:eh, n matching network, 512
--- po ly2, Improved version of poly, 230 , 827
--- pro 1 mat:, prolate matrix, 842
--- pro 1 , prolate array, 842
--- pu 1 se2movi e, pulse on transmission line, 450
--- pu 1 selOOvi e, pulse on transmission line, 440
--- quad r2, Gauss-Legendre quadrature, 961
--- quadrs2, Gauss-Legendre quadrature, 961
--- quadrs Gauss-Legendre quadrature, 757
--- quadrs, Gauss-Legendre quadrature, 955
--- quadr, Gauss-Legendre quadrature, 955
--- qwt:l, quarter-wavelength transformer, 491
--- qwt:2, quarter-wavelength transformer, 492
--- qwt:3, quarter-wavelength transformer, 492
--- r2n, refractive indices, 219
--- rhoniJi e, rhombic antenna gain, 649
--- scan, array scanning, 793
--- seet:or, sector beam design, 809
--- sgain, calculate power gains, 534
--- sgei re, stability and gain circles, 534
--- sinhe, hyperbolic sinc, 838
--- smat:eh, simultaneous coqjugate match, 534
--- smit:hei r, draw stability or gain circles, 534
--- smit:h, draw a basic Smith chart, 534
--- sne 1 , refraction angle, 346
--- snv, elliptic function sn, 871
--- spar am, calculate stability parameters, 534
--- sqrt:e, evanescent square root, 261
--- st:eer, array steering, 793
--- st:ubl, single-stub tuner, 501
--- st:ub2, double-stub tuner, 505
--- st:ub3, triple-stub tuner, 506
--- swr, standing wave ratio, 426
--- t:2pi, T to n transformation, 51 U
--- t:aylorlp, Taylor's one-parameter, 838
--- t:aylorbw, Taylor's B-parameter, 838
--- t:aylornb, Taylor's n-bar method, 845
--- t: ravel , traveling-wave antenna, 646
--- t:seet:i on, T-section equivalent, 417
--- t:woseet:, two-section transformer, 187 , 496
--- upu 1 se, pulse generation, 449
--- ust:ep, unit-step generation, 450
--- vee, vee antenna gain, 649
--- ville, Villeneuve method, 847
--- vprop, propagation V, I, 416
--- woodward, Woodward-Lawson method, 811
--- yagi, Yagi-Uda array, 925
--- zprop, propagation of Z, 416
maximum angle of refraction, 248 , 347
maximum available gain (MAG), 539
maximum stable gain (MSB), 540
maximum usable frequency (MUF), 284
Ma..'\.'Well's equations, 1
--- harmonic time dependence, 13
--- in terms of polarization, 6
--- source-free, 2
Ma..'\.'Well's stress tensor, 33
metamaterials, 7 , 292
method of moments, 874
--- delta-basis with Galerkin, 882
--- delta-function basis, 877
--- Galerkin method, 875
--- NEC basis, 888
--- point matching, 875
--- pulse basis, 875 , 881
--- triangular basis, 886
--- 1027
--- weighting functions, 875
microstrip antennas, 740
microstrip matching circuits, 493
microwave amplifier design, 541
microwave frequency bands, 939
microwave oven, 57
mirages, 285
mobility, 22
momentum conservation, 33
momentum density, 13
momentum fhLx, 10
monopole antennas, 643
moving boundary
--- Fresnel drag, 177
--- oblique reflection from, 272
--- reflection and transmission from, 175
moving media, 175
moving mirror, 178
multibeam array design, 847
multilayer optical film, 357
multilayer structures, 183 , 300
--- at oblique incidence, 3(M)
--- birefringent, 352
--- dielectric mirrors, 190 , 330
--- energy conselVation in, 212
--- equal-travel time, 206
--- lossy, 302
--- reflection frequency response of, 211
--- scattering matrix of. 212
multiple dielectric slabs, 173
multiple reflections, 171
multisection transmission lines, 475
mutual impedance. 905
---

N

narrow-beam, low-sidelobe array design, 818
natural rotation, 134
near fields of linear antennas, 902
negative index media, 7 , 30 , 70 , 292
--- Brewster angle in, 294
--- equivalent conditions, 71
--- propagation in, 70
negative-index media
--- lossy, 71
--- perfect lens, 319
--- Snel's law, 292
network analyzer, 523
noise bandwidth, 614
noise figure, 560 , 619
noise figure circles, 560
noise model of a device, 618
noise power, 614
noise temperature, 560 , 614
--- cellular base station, 615
--- of attenuator, 619
--- of cascaded devices, 620
--- sky, 615
--- system, 618
nonlinear materials, 5
normalized gain, 601
numerical aperture, 252
Nyquist frequency
--- in multilayer structures, 207
---

O

Ohm's law, 6 , 21
ohmic power losses, 3 , 12 , 14 , 24
omnidirectional dielectric mirrors, 190 , 330
one-dimensional arrays, 780
operating gain circles, 554
operating power gain, 538
optical fibers, 251 , 384
--- graded inde.x, 291
--- numerical aperture, 252
optical filters, 183
--- antireflection coatings, 185
--- dielectric mirrors, 190
--- narrow-band transmission, 201
--- shortpass and longpass, 200
optical manhole, 250
optical rotation, 132 , 134
optically active media, 129
optimum array directivity, 791
---

P

p-polarization, s.!1! polarization
parabolic reflector antennas, 746
parasitic array, 920
PBG, MI! periodic bandgap structures
penetration depth, 55
--- for evanescent waves, 249
perfect electric conductor, 659
perfect lens, 295 , 319
perfect magnetic conductor, 659
periodic bandgap structures, 201
--- acoustic and vibration control, 201
--- Bloch wavenumber, 192
--- fiber Bragg gratings, 201
photonic crystals, 201
--- transmission lines and waveguides, 201
permeability, 3
permittivity, 3
phase delay, 82
phase thickness, 207. 301. 330
phase velocity, 82
photonic crystals, 20 I
physical constants, 938
Pi-section matching network, 509
plane wave incident on linear antenna, 855
plane wave spectrum representation. 703
plasma frequency, 18
plasmas, 25
plasmonics, 272
Pocklington equation solution, 896
Pocklington integral equation, 854
Poisson's spot, 712
polarization, 4 , 46 , 239
--- Brewster angle, 256
--- charge density, 8
--- linear, circular, 130
--- TE, perpendicular, s-polarization, 239
--- TM, parallel, p-polarization, 239
polarization current and density, 6
polarization ellipse, 47
polarizers, 131 , 341
--- beam splitters, 341
--- reflective, 341 , 356
polarizers, dichroic, 136
polaroid materials, 137
positive real functions, 183
power density, 598
power gain circles, 551
power gains, 536
power losses, 3 , 23
power losses in transmISsion lines, 398
power losses per unit volume, 3
power transfer in transmission lines, 397 , 420
power transfer in waveguides, 365
power waves, 542
Poynting vector, 12 , 14 , 40
precursors, 89
principal-value integrals, 575
prisms, 250
prolate array design, 840
prolate matrix. 791 , 8 -tO
propagation
--- and chirping, 100
--- in birefringent media, 129
--- in chiral media, 133
--- in dispersive media, 80
--- in good conductors, 59
--- in gyrotropic media, 136
--- in negative index media, 70
--- in oblique directions, 61
--- in unia.xial and biaxial media, 131
--- in waveguides, 380
--- in weakly lossy media, 58
--- matrices, 150
--- oblique, in birefringent media, 137
--- of reflection coefficient, 151 , 244
--- of wave Impedance, 151 , 244
--- transient and steady-state, 88
propagation filter, 80
propagation Impulse response examples, 85
propagation matrices, 184
propagator frequency response, 81
propagator impulse response, 81
pulse compression, 110
pulse compression filters, 112
pulse compression, and chirping,
pulse propagation, 80
pulse propagation, and group velocity, 92
pulse spreading, 6 , 95
---

Q

QPSK modulation, 624
quadruple radiation, 655
quarter-wave reflectionless slab, 163
quarter-wave retarder, 131
quarter-wavelength transformer, 183 , 476 , 488 ,
--- 491
---

R

radar, 78
radar equation, 629
radar jamming, 633
radar, chirp, llO
radiated power, 599
radiation field approximation, 592
radiation fields, 568 , 587 , 594
radiation fields from apertures, 663
radiation fields of magnetic currents, 662
radiation from apertures, 658
radiation from dipoles, 577
radiation from waveguide apertures, 723
radiation intensity, 598
--- isotropic, 599
radiation patterns of reflector antennas, 754
radiation potentials, 590
radiation resistance, 638 , 639
radiation vector, 590
--- magnetic, 662
radiation vector of linear amennas, 636
radiative transfer, 469
radio interferometry, 784
radomes, 169
ray tracing, 281
Rayleigh-Sommerfeld diffraction theory, 700
rectangular apertures, 670
recursions, s.!1! layer recursions
refelection coefficient, 151
reflectance, 163
reflectance spectroscopy, 469
reflected power, 157
reflection by moving boundary, 175
reflection coefficients, 155
--- for multilayer structures, 301
--- Fresnel, 244 , 245
--- of multilayer structures, 183
--- transverse, 301
reflection response
--- forward recursion, 301
--- of multilayer structures, 184
reflectionless dielectric slab, 163
reflectionless matching, 473
reflective polarizers, 341
--- giant birefringent optics, 356
reflector antennas, 746
refraction
--- atmospheric, 286
--- ionospheric, 283
--- mirages, 285
refractive index. 4 , 30 , 242
--- in birefringent media, 139
--- transverse, 242 , 301
relractive index model, 582
refractive index. comple.x, 54
--- 1029
relative permeability, 4
relative permittivity, 4
relativistic causality, 82
relaxation time, ll, 23
relaxation, charge, 22
resonant antennas, 640
resonant cavities, 382
retarded potentials, 57U
retarders, 131
reversed matching networks, 516
RF spectrum, 939
rhombic antennas, 647
---

S

S-parameters, 522
--- available gain, 538
--- available gain circles, 554
--- generalized, 542
--- input and output reflection coefficients, 528
--- maximum available gain, 539
--- maximum stable gain, 540
--- microwave amplifier design, 541
--- network analyzers, 523
--- noise figure circles, 560
--- operating gain, 538
--- operating gain circles, 554
--- power flow, 526
--- power gain circles, 551
--- power gains, 536
--- power waves, 542
scattering matrix, 527
simultaneous coQjugate matching, 546
stability circles, 530
stability criterion, 533
--- transducer gain, 538
--- traveling waves, 523
--- unilateral gain circles, 552
s-polarization, s.!1! polarization
satellite links, 626
scattering matrix, 156. 212
--- unitarity, 213
scattering parameters, 522
Schelkunoff's zero-placement, 802
Schur algorithm, 183
search radar, 630
sector beam array design, 805
Sellmeier equation, 20
sensors, chemical and biological. 255 , 318
Shannon channel capacity, 624
SI units, 1 , 938
simultaneous coqjugate matching, 546
sine integrals, 949
single-stub tuner, 498
sinusoidal current approXlD1ation, 858
skin depth, 5S
slef impedance, 905
small dipole antenna, 638
Smith chart, 431
Snel's law, 240 , 280
--- Bouguer's law, 288
--- for lossy media, 246
--- in birefringent media, 351
--- in multilayer structures, 300
--- in negative-index media, 292
solid angle, 592
solitons, 6
Sommerfeld's conducting halt-space solution, 694
spatial sampling theorem, 815
spherical coordinates, 590
square loop antennas, 654
stability circles, 530
standard atmosphere, 289
standing wave ratio, 425
standing-wave antennas, 638
stationary phase approximation, 952
Stratton-Chu dittraction formulas, 677
superluminal group velocity, 83 , 103
surface current, 60
surface Impedance, 60
surface plasmon resonance, 255 , 31()
surface plasmons, 269 , 310
susceptibility, electric, magnetic, 4
system noise temperature, 618
system SNR, 61 q
---

T

Taylor line source array, 842
Taylor one-parameter array design, 836
Taylor's ideal line source, 818
Taylor's one-parameter line source, 818
Taylor-Kaiser array, >, 836
TE and TM impedance, 362
TE waves, 63
TE, TM, TEM modes, 361 , 367
telegrapher's equations, 435. 454
thick glasses, 168
thin films, 183 , 189 , 202
thin-wire kernel, 853
time average
--- energy density, 14
--- ohmic losses, 14
--- Poynting vector, 14
time-domain reflection response, 171
time-domain reflectometry, 451
time-domain response of transmission lines, 435
TM waves, 63
total internal reflection, 247 , 261
--- critical angle of incidence, 248
--- for birefringent media, 347
--- frustrated, 306
--- maximum angle ot' retraction, 248
transducer power gain, 538
transfer matrix. 184 , 192 , 207 , 210 , 522
transformers, s.!1! impedance matching
transition matrix. s.!1! transfer matrix
translational phase shift, 768
transmission coefficients, 155
transmission lines, 394
--- broadband terminations of, 183
--- cascaded lines, 450
--- coa.xiallines, 405
--- coupled, 453
--- coupled telegrapher's equations, 454
--- crosstalk, 459
--- determination of load Impedance, 427
--- distributed circuit model of, 412
--- equivalent electrostatic problem, 394
--- higher modes in, 409
--- Impedance, inductance, capacitance, 395
--- lattice timing diagrams, 438
--- microstrip lines, 401
--- multisection lines, 475
--- open and short circuited lines, 422
--- parallel plate lines, 400
--- power losses, 398
--- power transfer, 420
--- reactive terminations, 440
--- reflection response, 414
--- rise time effects, 449
--- Smith chart, 431
--- standing wave ratio, 425
telegrapher's equations, 435
terminated lines, 417
Thevenin equivalent circuit, 423 , 473
time-domain reflectometry, 451
time-domain response, 435
transient response, 436
transmitted power, 397
two-port equivalent circuit of. 416
two-wire lines, 410
--- wave Impedance, 414
--- weakly coupled lines, 462
transmittance, 163
transmitted power, 157
transverse
--- fields, 240
--- Fresnel coefficients, 244 , 245
--- Impedance, 242
--- propagation matrices, 243
--- reflection coefficients, 243 , 301
--- refractive index. 242 , 301
--- wave Impedance, 243
transverse Impedance, 63 , 240 , 362
traveling wave antennas, 645
traveling waves, 523
triple-stub tuner, 504
two-port network, 522
two-section impedance transformer, 493
---

U

ultraviolet bands, 940
unia.xial media, 130
uniform apertures, 670
uniform arrays, 786
uniform plane waves, 36
unilateral gain circles, 552
units, 1
---

V

vector diffraction for apertures, 681
vector diffraction theory, 675
vector identities, 941
vector potential, 568
vee antennas, 647
velocity of light, 4
very large array tVL-\J, 785
very long base line array (VLB:\J, 785
Villeneuve arrays, 846
visible region, 782
visible spectrum, 940
Voyager spacecraft, 625
---

W

wave equation, 37
wave equations, 570
wave impedance, 46 , 151 , 414
--- forward recursion, 302
--- of multilayer structures, 184
wavefront, 43 , 62
--- surfaces and rays, 277
waveguide dispersion, 6
Waveguides
--- cutoff wavenumber and frequency, 362
--- TE, TM, TEM modes, 361 , 367
waveguides, 359
--- attenuation, 365 , 377
--- dielectric, 384
--- energy velocity, group velocity, 375
--- Helmholtz equations, 364
--- operating bandwidth, 374
--- power transfer, 365 , 375
--- propagation model, 380
--- rectangular, 370
--- resonant cavities, 382
--- TE, TM impedance, 362
wavelength division multiplexing, S
wavelength-division multiplexing, 183. 202
waves
--- backward, 38
--- comple.x. 63 , 258
--- evanescent, 249
--- forward, 38
--- in birefringent media. 138
--- in plasma, 148
--- inhomogeneous, 63 , 258
--- monochromatic, 42
--- TE, TM, 63
--- uniform plane, 36 , 52
--- Zenneck, 267
Weyl representation, 945
wire antennas, 634
WMD, s.!1! wavelength division multiplexing
Woodward-Lawson array design, 809
Woodward-Lawson method, 816
---

X

X-ray bands, 940
---

Y

Yagi-Uda antennas, 923
--- 1031
---

Z

Zenneck surface wave, 267
zero dispersion wavelength, 98
zero-placement array design, 802

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