Felsen L., Marcuvitz N. — Radiation and scattering of waves :: Электронная библиотека попечительского совета мехмата МГУ

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Felsen L., Marcuvitz N. — Radiation and scattering of waves

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Название: Radiation and scattering of waves

Авторы: Felsen L., Marcuvitz N.

Аннотация:

As relevant today as it was when it was first published 20 years ago, this book is a classic in the field. Nowhere else can you find more complete coverage of radiation and scattering of waves. The chapter: Asympotic Evaluation of Integrals is considered the definitive source for asympotic techniques. This book is essential reading for engineers, physicists and others involved in the fields of electromagnetics and acoustics. It is also an indispensable reference for advanced engineering courses.

Язык:

Рубрика: Физика/Электромагнетизм/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Год издания: 2003

Количество страниц: 888

Добавлена в каталог: 21.08.2005

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Предметный указатель

Impedance walls in anisotropic medium      781—83
Impedance walls, constant      554—62
Impedance walls, variable      674—85
Improper Riemann sheet      472
Infinity catastrophe (in radiated power)      753 769—71
Inhomogeneous media, ray trajectories in      112 130
Inhomogeneous media, space-time ray curves in      115
Inhomogeneous media, wavepackets in      115
Inhomogeneous slab      364
Inner product Hermitean      51
Inner product of two wavevectors      32
Integral equations for eigenvalue problem      330 333
Integral equations, solution by iteration      331
Integration paths, $e^{-lwt}$ dependence      466
Integration paths, $e^{jwt}$ dependence      465
Integration techniques, plane-stratified regions      455—76
Integration techniques, wedge regions      639—50
Inverse-square profile      613
Ishimaru.A.      867 875 876
Jeffreys, H.      377 384 386 439 440
Jones, D.S.      429 441 532 628 685 696 738
Kay, A.F.      566 628
Kay, I.      122 181 365
Kazarinoff, N.D.      342 368
Keller, H.B.      365
Keller.J.B.      124 139 141 151 181 182 365 578 580 587 589 603 628 691 738
Kesler, O.B.      111 180
King, R.W.P.      685 696 738
Kirchhoff procedure      564
Kline, M.      122 181 429 441
Knopp, K.      459 627
Kogelnik, H.      846 876
Kolin, L.      718 739
Kontorovitch, M.J.      325 368
Kontorovitch-Lebedev transform      325 639
Kravtsov, Y.A.      592 629
Krichbaum.C.K.      699 739
Kurss, H.      81 180
Labianca, F.      139 181
Laleral rays (waves)      141 508 513 528 537 799 801 858
Laleral rays (waves) on anisotropic interface      802
Landau, L.D.      80 180 740 745 820
Langer, R.E.      336 342 368 710 739
Lax, B.      740 820
Leaky waves      540 542 545 600
Lebedev-Kontorovitch transform      325 705
Lebedev.N.H.      325 368
Leontovich, M.A.      626
Levey, L-      423 440 613 629
Levy, B.R.      141 181
Lewis, R.M.      122 126 142 151 153 175 181 182 422 440
Lifshilz, E.M.      80 180 740 745 820
LighihiH, M.J.      36 100 109 111 180
Lorch E.R.      277 278 367
Lossless medium      80
Ludwig, D.      592 628
Magnetic currents      86
Magnus, W.      95 123 180 181 258 259 260 262 315 317 319 343 352 367 368 369 418 419 438 440 467 473 621 627 718 728 739
Malyuzinec, G.D.      728
Mapping of complex plane      463
Marcinkowskl, C.J.      731 732
Marcuvitz.N.      188 192 203 219 220 238 274 288 367
Matching at interfaces      142 146 157 171
Matrix propagator      365
McDonald, H.M.      671 672 738
Mehler functions      706
Miller, J.C.P.      432 441 716 717 739
Modal representations      see “Eigenfunctions”
Modal representations anisotropic medium      831—32
Modal representations unbounded cross sections      446 450
Mode functions      see “Eigenfunctions”
Modes in cold plasma, extraordinary      843
Modes in cold plasma, ordinary      843
Morse, P.M.      2 180 241 273 334 367 368 454 627
Motz, H.      846 876
Moving point charge      494 532 766
Mueller.C      87 180
Mullaly, F.      843 876
Munford, C.M.      409 440
Network analysis, spherical region      225—32
Network analysis, uniform regions      202—17
Network representations of fields, acoustic      38
Network representations of fields, electromagnetic      43
Network representations of fields, plasma      46 47
Network representations of fields, transverse      2J7
Network representations, impedance boundary      556
Network representations, incident wave      204
Network representations, interface      515
Noble, B.      722
Non-reciprocal behavior      864 869
Nosova, L.N.      423 440
Oberhettinger, F.      95 123 180 181 258 259 260 262 315 317 319 343 352 367 368 369 418 419 438 440 467 473 621 627 662 666 667 669 670 671 718 728 738
of Green’s function      584
Oliner, A.A.      472 543 627
Olver, F.W.J.      336 343 345 368 710 715 739
Open cross-sections      248 259 296
Open-branched wavenumber surface      771 854
Operator methods      15 18 20 31—4
Operator, admittance      75 78
Orthogonality properties      51
Orthogonality properties in anisotropic medium      834
Oscillatory mode representations, for time-varying medium      177
Oscillatory mode representations, general properties      50—63
Panofsky, W.K.H.      496 627
Parabolic cylinder functions      419 436 437
Paths of integration, constant level      379—82
Paths of integration, constant phase      379—82
Paths of integration, steepest descent      381
Paths of integration, “stationary-phase”      381
Pearcey, T.      421 440
Phased line current      492 763
Phased plane sheet source      167
Philips, H.B.      191 220 238
Phillips, M.      496 627
Physical optics procedure      564
Pike, E.R.      337 368
Plane-stratified media      442 ff
Plane-stratified media, arbitrary profiles      571—94
Plane-stratified media, piecewise constant properties      444—55
Plane-stratified media, progress of a ray in      144
Plane-stratified media, ray equation in      131
Plane-wave incidence normalization      486
Plane-wave representations local      106 110
plasma      see also “Cold electron plasma”
Plasma field      26—31 45
Plasma field, reduced formulation      30 31
Plasma, lossless, inverse-square profile      595
Plasma, uniaxially anisotropic      743
Poeverlein, H.      142 156 182
Polarization space, completeness relation      67
Pole (wave contributions)      470—73
Potential functions      192 (see also “Hertz potentials”)
Potential functions spherical      223
Potentials, Hertz      see “Hertz potentials”
Pulse compression      178
Pulsed sources      see “Field of various sources”
Radial transmission, cone      703
Radial transmission, cylinder      689
Radial transmission, dielectric slab      546—47
Radial transmission, sphere      701
Radial transmission, wedge      664 684
Radiated power catastrophe      771 (see also “Infinity in”)
Radiated power, acoustic source      40—41
Radiated power, electric current source      44
Radiated power, electric current source in plasma      48
Radiated power, steady state electric current      477
Radiating aperture      234 236
Radiation condition      87
Radiation condition in anisotropic media      748
Radiation integral, evaluation of      464—70

Rawer, K.      620 629
Ray equations      128
Ray equations for plane-stratified medium      131
Ray method      124
Ray method, geometrical theory of diffraction      139
Ray tracing in anisotropic medium      512
Ray tracing in isotropic medium      792
Rays in anisotropic media      144 145 784
Rays in inhomogeneous media      112 130—32
Rays in inverse square profile      606
Rays in plane-stratified medium      580
Rays in slowly varying medium      575—83
Rays, complex      578
Rays, diffracted      140
Rays, guided, trapped      592
Rays, monotonic profile      584
Rays, phase change      577—78
Rays, reflection and refraction in anisotropic medium      156
Rays, reflection at a curved boundary      169
Rays, refraction at a curved boundary      170
Rays, space-time      97 153—57
Rays, transverse resonance      593
Rays, turning point      580
Rays, vector velocity of      104
Reciprocity relations      5 6 14 33—34
Reciprocity relations time-harmonic      194—98
Resonant transmission-line method      268
Rice, S.O.      375 419 439
Riemann sheet      536 (see also “Riemann surface”)
Riemann surface      458 463 480 517
Riemann surface, angular transmission      312
Riemann surface, four-sheeted      804
Riemann surface, two-sheeted      623
Ring current      236 617
Rosenbaum, S.      139 181
Rothman, M.      423 440
Ruck, G.T      699 739
Rulf, B.      783 820
Rydbeck, O.E.H.      351 369
Saddle points      97—98 109 371 377—78
Saddle points, graphical method for location of      103 113 469 851
Saddle points, higher-order      397—99
Scalar time-harmonic fields, asymptotic solution for      128—34
Schelkunoff, S.A.      190 193 203 222 238
Schwinger, J.      188 238
Seckler, B.D.      139 151 181 182 578 580 587 589 603 628
Semiinfinite cone      703—10
Semiinfinite dielectric      506—38
Senior, T.B.A.      626 660 664 667 669 685 690 696 697 699 701 703 707 708 718 738
Seshadri, S.R.      844 849 863 866 869 876
Shadow regions      631
Signal propagation in dispersive medium      119—22
Sitenko, A.G.      534 535 628
Slater, L.J.      345 368
Slow waves      493 (see also “Surface waves”)
Slurm — Liouville problem      241 273
Sommerfeld, A.      87 326 368 488 509 510 520 523 557 627 628 650 661 663 673 737
Space-time ray, amplitudes      153
Space-time ray, curves in inhomogeneous media      115
Space-time rays      see “Rays”
Spectral (proper) sheet      298
Sphere perfectly conducting      231 701
Sphere “perfectly absorbing”      229
Spheric a] waves, diffraction by a cone      703
Spheric a] waves, diffraction by a sphere      701
Spheric a] waves, diffraction by an edge      667
Spheric a] waves, excitation by a dipole source      477
Spheric a] waves, network formulation      225—32
Spheric a] waves, reflection and refraction      508—12
Standing wave formulation      204 283
Staras, H.      756 769 820
Stationary points      see “Saddle points”
Stengler, F.      345 369
Stratton, J.A.      9 89 180 192 218 222 238 447 511 627 628
Stuart, W.D.      699 739
Surface currents, induced      88
Surface wave      510 537 540 542 543 545 622 679 782 867
Surface wave, antennas      683
Surface wave, “Iossy”      556
Surface, dispersion      101
Swanson, C.A.      345 368
Tai, C.T.      869 876
Talanov, V.I.      684 738
Talich, V.S.      534 535 628
Tamir, T.      472 543 627
Tamm, I.G.      496 627
Temporal inhomogeneily      176
Thermodynamic paradox      867
Time-varying medium, oscillatory representations      177
Tip condition      704
Tipped wedge      630
Titchmarsh, E.C      34 42 180
Transformed Green’s function      67
Transient fields, power flow      453
Transition functions      591 646 805
Transition regions      98 666 681 853—54
Transmission lines, angular      306—13
Transmission lines, average power      221
Transmission lines, image representation      312
Transmission lines, infinite angular line      310
Transmission lines, infinite point source      206
Transmission lines, non-conventional      832—37
Transmission lines, non-uniform      328
Transmission lines, non-uniform, Airy functions      340 358
Transmission lines, non-uniform, Born approximation      334
Transmission lines, non-uniform, comparison equation      336
Transmission lines, non-uniform, confluent hypergeometric function      334
Transmission lines, non-uniform, continuous transition      350—53
Transmission lines, non-uniform, Epstein solution      353—58
Transmission lines, non-uniform, Weber’s parabolic functions      342
Transmission lines, one-dimensional eigenvalue problem      253—54
Transmission lines, planar stratification      329
Transmission lines, radial      323—28
Transmission lines, relation non-conventional      836
Transmission lines, resonance      215—17
Transmission lines, Riemann surface      312
Transmission lines, spherical regions      314—20
Transmission lines, standing-wave description      209
Transmission lines, terminated      207
Transmission lines, traveling-wave description      208
Transmission lines, WKB approximation      328 358
Transmission-line equations      190
Transmission-line equations, radial      323
Transmission-line equations, spherical      218—22
Transmission-line equations, uniform      202—17
Transmission-line networks, acoustic      70
Transmission-line networks, electromagnetic      73
Transport equations      129 136 155
Transposed problem      91
Transverse field equations, anisotropic medium      841
Transverse field equations, dyadic permittivity      870
Transverse field equations, sphericaJ      218—19
Transverse field equations, uniform      186
Transverse resonance (transmission)      216 538 545 557 607
Transverse resonance (transmission), analysis      268
Transverse resonance (transmission), ray      593
Transverse vectors      191
Trapped modes (waves)      294 297
Traveling-wave formulation      204 283
Tricomi, F.      317 368
Tumarkin, S.A.      423 440
Uniaxial anisotropy      745
Uniaxial medium      742 873
Uniaxial permittivity      753
Ursell, F.      415 440
Uslenghi, P.L.E.      660 664 667 669 685 690 696 697 699 701 703 707 708 718 738
Van der Waerden, B.L.      399 440
Wait, J.R.      49 180 514 628 685 689 690 696 697 718 738
Watson transformation      701 726
Watson, G.N.      330 332 368 436 600 629 701 710 726 739

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