Krall N., Trivelpiece A. — Principles of Plasma Physics :: Электронная библиотека попечительского совета мехмата МГУ

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Krall N., Trivelpiece A. — Principles of Plasma Physics

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Название: Principles of Plasma Physics

Авторы: Krall N., Trivelpiece A.

Аннотация:

This textbook was developed to provide graduate students in physics and astronomy at the University of Maryland with a comprehensive background in plasma physics. It was designed for a two-semester course, normally taken in the second year of graduate study by students who have completed the usual sequence of graduate courses in classical and statistical mechanics, electro-magnetism, and mathematical methods. It is a basic introduction to the field and assumes no background in plasma physics. Although it was intended as a graduate text, it could be used for an advanced undergraduate course by proper selection of material.

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Рубрика: Физика/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Год издания: 1973

Количество страниц: 688

Добавлена в каталог: 12.10.2014

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Предметный указатель

Drummond, W.E.      505 514 554 589 605
Duechs, D.F.      655
Dunlap, J.L.      658
Dupree, T.H.      367 599 600 654
Dynamic pinch      42—45 123—128
Dynamic pinch, definition of      100
Dynamic pinch, magnetic probes used in      48—49
Dynamic pinch, schematic of      43
Eastlund, B.J.      54
ECHOES, Echoes, echoes      539—549
Eldridge, O.C.      657
Electric fluctuations      563—567
Electric fluctuations in maxwellian plasma, $T_{e} = T_{i}$       567
Electric fluctuations in nonmaxwellian plasma      568—570
Electric fluctuations of wavelength $k \lambda_{D} \gg 1$ , $T_{e} = T_{i}$       567
Electric fluctuations of wavelength $k \lambda_{D} \ll 1$ , $T_{e} = T_{i}$       566
Electric fluctuations when $T_{e} \gg T_{i}$       568
Electromagnetic waves, circularly polarized      183
Electromagnetic waves, coordinate system used in analysis of      180
Electromagnetic waves, cyclotron      410
Electromagnetic waves, drift      211—213 see
Electromagnetic waves, energy distribution in      150
Electromagnetic waves, energy transport of      149
Electromagnetic waves, group velocity of      149
Electromagnetic waves, incident on magnetized plasma      191
Electromagnetic waves, particle motion in      618—621
Electromagnetic waves, phase velocity of      149
Electromagnetic waves, phase velocity of, $E \perp B_{0}$       417
Electromagnetic waves, phase velocity of, $E \| B_{0}$       417—418
Electromagnetic waves, propagating at arbitrary angle with respect to phase velocity of      149
Electromagnetic waves, propagating parallel to equilibrium magnetic field in a magnetized hot plasma      414—417
Electromagnetic waves, propagating perpendicular to equilibrium magnetic field in hot magnetized plasma-the Bernstein modes      407—413
Electromagnetic waves, reflection from a plasma boundary      151—152
Electromagnetic waves, small Larmor radius limit      499
Electromagnetic waves, stability of isotropic distributions, Nyquist method      485—487
Electromagnetic waves, Vlasov theory of small-amplitude waves in field-free plasma equilibrium      398—402
Electromagnetic waves, zero density limit      150
Electromagnetic waves, zero temperature limit      500
Electron gas, magnetically confined      116—118
Electron trapping in single plasma wave      536—539
Electrostatic approximation      372
Electrostatic waves      see "Langmuir oscillations"
Ellis, R.E.      53 273
Ellis, W.R.      657
ELMO device      36
Elmore, W.C.      505
Elsasser, W.      656
Emde, F.      631
Energy distribution in electromagnetic waves      150
Energy principle      251—257
Energy principle, analysis, stability of plane plasma-magnetic field interface      257—261
Energy principle, analysis, stability of self-confined plasma ( $B_{\theta}$ only)      261—263
Energy transport by electromagnetic waves      149
Englemann, F.      437 514
Equation of state      65—66 96—97
Equation of state, required to close CGL or double-adiabatic theory      120
Equation of state, required to close CGL or double-adiabatic theory, revealed by Vlasov theory      386
Equations of motion      608
Equilibrium      3
Equilibrium of inhomogeneous magnetized plasma      420—427
Equilibrium of inhomogeneous magnetized plasma, nonuniform density      420—421
Equilibrium of inhomogeneous magnetized plasma, nonuniform parallel temperature      421
Equilibrium of inhomogeneous magnetized plasma, nonuniform perpendicular temperature      421
Equilibrium, "metaequilibrium"      3
Equilibrium, "metaequilibrium", Vlasov, stability of      364—366
Equilibrium, bibliography      657—658
Equilibrium, dispersion relation for waves in general plasma equilibrium      395—398
Equilibrium, exponential variations of plasma density      248—249
Equilibrium, field-free, solution of linearized Vlasov equations for electrostatic perturbations of      371—375
Equilibrium, field-free, Vlasov small-amplitude waves in      398—402
Equilibrium, gentle-bump distribution function      527
Equilibrium, neutrally stable      216
Equilibrium, pinch      100—103 127—128
Equilibrium, problem described      217—218
Equilibrium, solutions of Vlasov equation      361—364
Equilibrium, stable      216
Equilibrium, unstable      216
Etievant, C.      659
Eubank, H.      655
Eviator, A.      573
Extraordinary mode      409
Faraday generators      342
Faraday rotation      184—186 201
Feix, M.R.      437 657
Felderhof, B.U.      348 367
Feshbach, H.      631 637
Fessenden, T.J.      657
Field, E.C.      654
Field, L.M.      29
Finite Larmor radius (FLR), magnetohydrodynamics      97
Finite Larmor radius limit      499
Fluctuation energy, bounds on      508—509
Fluctuations      556—605 see
Fluctuations, electromagnetic      573—575
Fluid equations      66—67 70—74 92
Fluid models, bibliography      656
Fluid waves versus Vlasov waves      437—439
Flux of particles      83
Flux, heat      83
Flux, tube, example      234—241
Fokker — Planck theory      599—604
Fokker — Planck theory for transport in fully ionized plasma      295—300
Forman, P.R.      657
Forsen, H.K.      658
Fowler, T.K.      54 449 505 507 511
Fraas, A.P.      41
Fredricks, R.N.      659
Free energy      63—65 445
Free-diffusion coefficient      21
Free-streaming term      392
Fried, B.D.      431 478 489 505 654
Friedberg, J.P.      657
Friedman, M.      654
Frieman, E.A.      70 256 505 568 656
Frozen field lines      105—106
Furth, H.P.      286 495 496 505 655
Fusion      see "Controlled thermonuclear fusion"
Galeev, A.A.      554 555 655
Gardner's theorem      445—449
Gardner, C.S.      445 448
Gartenhaus, S.      441
Gauss's theorem      637
Gavrin, P.P.      654
Gentle, K.W.      554
Gentle-bump instability      458—463
Gentle-bump instability in quasilinear theory      527—532
Gentle-bump instability, distribution function      527
Getty, W.D.      26
Gibbs distribution      58—60 79
Gibbs distribution, free energy for      64
Gibbs ensemble      2
Gibson, A.      278
Gibson, G.      268
Gilleland, J.R.      658
Ginzburg, V.L.      214 592
Glasstone, S.      18 44
Goldberger, M.L.      119 505
Goldenbaum, G.C.      654 655
Goldman, L.M.      658
Goldstein, H.      630
Gott, Yu.V.      258 269
Gottlieb, M.B.      658
Gough, W.C.      54
Gould, R.W.      29 161 166 167 171 176 205 206 395 478 539 541 547—549
Grad, H.      656 658
Green, H.S.      59 128 360 367 605
Green, J.L.      576
Greene, J.M.      432
Greenwood, J.R.      658
Grek, B.      658

Griem, H.R.      26 42 51 511 554 599 605
Gross, E. R      317
Gross, R.      157
Grove, D.J.      658
Guest, G.E.      655 659
Guiding center      8
Guiding center, drift speed for weak gradients      9
Gyro radius      see "Larmor radius"
Haber, I.      490—492 505 657
Haberstich, A.      657
Haerendel, G.      54
Hain, G.      656
Hain, K.      655 656
Hall coefficient      340
Hall current      331
Hall generators      342
Hall term      331
Hamasaki, S.      600
Hamberger, S.M.      654
Hammer, C.F.      657
Hammer, D.A.      490—492 505 657
Hans, R.J.B.      655
Hardcastle, R.A.      655
Harder, C.R.      657
Harris, E.G.      497 505 659
Harris, H.W.      657
Hartell, E.R.      657
Hartman, G.W.      657
Hasegawa, A.      655
Haught, A.F.      26 39
Heald, M.A.      42 153 156 214
Heibenstreit, W.B.      227
Helmer, J.C.      26
Helmholtz energy      63—65 445
Hendel, A.W.      511
Hess, W.M.      115
Hester, R.E.      657
High-frequency waves      see also "Waves"
High-frequency waves, that propagate parallel to magnetic Held in cold magnetized plasma      182—184
High-frequency waves, that propagate perpendicular to magnetic field in cold magnetized plasma      197—199
Hintz, E.      655
Hirsch, R.L.      658
Hirshfield, J.      590
Hoh, F.C.      656
Holmes, L.S.      655
Hooper, E.B., Jr.      658
Hosea, J.C.      658
Hothker, K.      655
Huddlestone, R.H.      42 46 49 53 153 605
Hugill, J.      278
Humphries, S.      657
Hurwitz, H., Jr.      655
Hydromagnetic models, bibliography      656
Iiyoshi, A.      655
Impurity radiation      see "Radiation"
Incompressibility, as a plasma property      109—110
Infinite conductivity limit      100
Instability      see "Stability"
Intermediate frequency waves, propagating parallel to $B_{0}$ in cold magnetized plasma      191—192
Intermediate frequency waves, propagating perpendicular to $B_{0}$ in cold magnetized plasma      199—200
Ioffe bars      270
Ioffe, M.S.      258 269 286
Ion line      585—586
Ion-acoustic instability      476—478
Ion-acoustic waves      106—109 400—401
Ion-acoustic waves, energy in      147
Ion-acoustic waves, isothermal characteristic of      146—147
Ion-acoustic waves, modification of, by density gradient      210
Ion-acoustic waves, solitary and shock      110—115
Ion-acoustic waves, Vlasov theory of      383—391
Ionosphere      2
Ionosphere, backscattering of radar from      576
Ionosphere, electric field in      73—74
Ise, J., Jr.      658
Iskol'dskii, A.      654
Isobaric surfaces      98—100
Isothermal atmosphere      104
Isothermal compression      109
Jahnke, E.      631
Jahoda, F.C.      657
Jancel, R.      214 348
Jeffreys, H.      631
Jensen, T.      480
Jepsen, R.L.      26
Jernigan, T.C.      658
Johnson, J.L.      658
Johnston, T.W.      128 214
Jones, W.D.      655
Jordan, W.      268
Jory, H.R.      620
Judd, D.      269 295 348
Kadomtsev, B.B.      257 286 511 554 555
Kahan, T.      214 348
Kapetanakos, C.A.      117
Karr, H.J.      657
Kaufman, A.N.      505
Kawamura, T.      654
Keilhacker, M.      654
Kelley, G.G.      479
Kellog, P.J.      656
Kennel, C.F.      655 659
Kerst, D.W.      658
Kilb, R.      655
kinetic energy density      141—142
Kinetic equation      82
Kinetic equation for collisional relaxation of a plasma      599—605
Kinetic equation in first order      359—360
Kinetic equation in zero order      358—359
Kinetic equation, momentum transfer in      86—88
Kinetic equation, properties, to order g      366—367
Kinetic power flow      140—142
Kirchhoff's law      572 591—595
Kirchhoff's law and emission of radiation from a plasma      588—590
Kirkwood, J.G.      360 367 605
Kittel, C.      77
Klarfeld, B.      29
Klimontovich — Dupree equation      351
Klimontovich, Yu.L.      367 600 605
Knechtli, R. C      33
Knorr, G.      656
Kolb, A.C.      26
Koopendorfer, W.      656
Kornherr, M.      654
Kovrizhnikh, L.M.      656
Krall, N.A.      51 110 128 130 187 214 425 427 438 441 505 555 657
Krook model      316—317
Krook, M.      317
Kruskal — Shafranov condition      251 279
Kruskal, M.D.      256 432 627 658
Kudryavtsev, V.S.      589
Kulsrud, R.M.      256 505 627
Kunkel, W.B.      89 286 348
Kunze, H.-J.      53 576 588 606
Kurtmullaev, P.      654
Lagrangian displacement used to express small deviation from equilibrium state      251—252
Landau contour      376
Landau damping      12 387
Landau damping in quasilinear theory      520—527
Landau damping, bibliography      657
Landau damping, general eigenvalues of D (k, $\omega$ ) = 0 for weak damping or growth      388—389
Landau damping, nonlinear      553
Landau damping, Vlasov theory of      383—391
Landau, L.D.      60 64 110 139 215 376 387
Langdon, A.B.      656
Langmuir oscillations      9 11—12 133—143 167—168 383—388 400 see
Langmuir oscillations in dispersive system      171
Langmuir oscillations in one-dimensional drifting plasma      136—143
Langmuir oscillations in warm plasma      143—147
Langmuir oscillations in warm plasma, collisionless      146
Langmuir oscillations, bibliography      658—659

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