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Bethe H., de Hoffmann F. — Mesons and fields. Volume 2. Mesons
Bethe H., de Hoffmann F. — Mesons and fields. Volume 2. Mesons



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Íàçâàíèå: Mesons and fields. Volume 2. Mesons

Àâòîðû: Bethe H., de Hoffmann F.

Àííîòàöèÿ:

Field theory is a branch of mathematics which studies the properties of fields. A field is a mathematical entity for which addition, subtraction, multiplication and division are well-defined.
Please refer to Glossary of field theory for some basic definitions in field theory.


ßçûê: en

Ðóáðèêà: Ìàòåìàòèêà/

Ñòàòóñ ïðåäìåòíîãî óêàçàòåëÿ: Ãîòîâ óêàçàòåëü ñ íîìåðàìè ñòðàíèö

ed2k: ed2k stats

Ãîä èçäàíèÿ: 1955

Êîëè÷åñòâî ñòðàíèö: 455

Äîáàâëåíà â êàòàëîã: 09.04.2013

Îïåðàöèè: Ïîëîæèòü íà ïîëêó | Ñêîïèðîâàòü ññûëêó äëÿ ôîðóìà | Ñêîïèðîâàòü ID
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Ïðåäìåòíûé óêàçàòåëü
$K^{-}$ particle      384 385 388 393
$K^{0}$ particle      393
$K_{\mu2}$ particle      373 383—84 392
$K_{\mu3}$ particle      374 384—86
$K_{\pi2}$ particle      374
Absorption      (see Capture)
Annihilation operator      59 200 249 50
Antipartacies      46—47 250 369 390
Antipartacies, aiitmeutrino      369
Antipartacies, anti-electron      369
Antipartacies, antihyperon      390
Antipartacies, antimuon      369
Antipartacies, antineutron      45 393
Antipartacies, antiproton      45 390
Baryon      390
Beta decay      367—69
Bethe — Salpeter equation      312
Capture of $\mu$ mesons      366 369—70
Capture of $\pi$ mesons in heavy elements      13 15
Capture of $\pi^{+}$ in deuterium      3 8 13 48
Capture of $\pi^{-}$ in deuterium      3 13—17 103 339
Capture of $\pi^{-}$ in hydrogen      3 17—18 99—101
Cascade production      (see Plural meson production)
Catastrophic transition      (see Photo-production of $\pi$ mesons)
Center-of-mass relations      132—33
Center-of-mass relations, relativistic transformation      402—4
Center-of-mass tables, energy of $\pi$-nucleon      353 401
Center-of-mass tables, energy of nucleon-nucleon      353 402
Center-of-mass tables, momentum of $\pi$      396—400
Center-of-mass tables, wave length of $\pi$      32 113 115 396—400
Central force      (see Nuclear forces)
Channel      (see Reaction channel)
Charge definition      265
Charge independence      17 35—37 43 49 61 114 321 332—34
Charge of it mesons      3
Charge quantum number for meson-nucleon system      58—59
Charge quantum number, definition      41
Charge symmetry      35—37 43 47—49 61 114 332
Charge symmetry and $\pi$-deuterium scattering      48—49 114
Charge symmetry and $\pi$-nucleon interaction      47—48
Charge wave function      (see Isotopic spin wave
Charge-exchange capture      (see Scattering of $\pi^{-}$ from protons)
Chew’s cutoff theory      (see Scattering of $\pi$ mesons Chew’s
Chi particle      (see $K_{1}$ particles
Clebsch-Gordan coefficients      14
Compton scattering      (see Scattering of quanta)
Compton wave length of meson      133
Compton wave length of nucleon      190
Conservation of electric charge      47 390
Conservation of heavy particles      46—47 392
Conservation of isotopic spin      53—55 390
Constant of motion, isotopic spin      54—55
Constant of motion, momentum      54
Contact interaction      98 302
Coulomb scattering      (see also Scattering of $\pi^{+}$ from protons Scattering
Coulomb scattering, $\mu$ mesons from nucleons      371
Coulomb scattering, interference with nuclear scattering      70—71 82—83
Coupling      (see Old strong coupling theory Strong Weak
Coupling constant renormalization      (see Renormalization)
Coupling of Deser et al      267—70
Coupling parameter      211
Coupling renormalized      252 263
Coupling scattering type      26 70
Coupling, ambiguity of definition      259 265 66
Coupling, between $\pi^{0}$ and neutron      18—19 50—51
Coupling, between $\pi^{0}$ and proton      18—19 50—51
Coupling, definition of      xiii
Coupling, derived from meson scattering      20 234 256
Coupling, derived from nuclear forces      19 20 186 311
Coupling, derived from photoproductlon      278—79
Coupling, effective      252
Creation operator      58—59 200 249—50
Curious particles      373—95 (see also Specific particles such as $\Lambda^{0}$
Curious particles and isotopic spin      
391—92
Curious particles and large spins      390
Curious particles and low energy phenomena      394 95
Curious particles, excitation funotion for production      387—89
Curious particles, Gell — Mann — Pais theory      390—94
Curious particles, Goldhaber $\theta^{0}$ hypothesis      394
Curious particles, interaction with nuclear matter      389—90
Curious particles, long lifetime of      374 389
Curious particles, nomenclature      373
Curious particles, production from $\pi^{-}$ on hydrogen      386—87
Curious particles, production from nucleoi      38 7—89
Curious particles, production in pairs      386 39
Curious particles, summary      374
Curious particles, theory      389—94
Cutoff momentum (or energy)      195—96 232
Cutoff theory      (see Scattering of $\pi$ mesons Chew’s
Decay schema      (see also Under specific particles)
Decay schema of $\mu$ niesons      365—69
Decay schema of charged $\pi$ mesons      5
Decay schema of curious particles      374
Decay schema of neutral $\pi$ mesons      3 4
Decay schema of neutron      45
Decay schema of positronium      13
Decay schema of protoh      367 369
Decay schema, rare decay modes of mesons      3 6 333 367 369
Delta function interaction      (see Nuclear forces)
Deser-Thirring-Goldberger theory      (see Scattering of $\pi$ mesons low
Destruction operator      (see Annihilation operator)
Deuteron, D state percentage      311 316 319
Deuteron, ground state      311 316
Deuteron, quttdhlpole moment      311 316 319
Dineutron      16—17
Dirac magnetic moment      290 296
Disintegration energy of $K_{\mu3}$      384
Disintegration energy of $K_{\pi2}$      385
Disintegration energy of $\Lambda^{0}$      374 377
Disintegration energy of charged $\Sigma$      27 374 378
Disintegration energy of charged $\tau$      374 380
Divergences, spurious in new Tamm — Dancoff method      252 406
Dressed nucleon      269
Effective range      17 36 231 311 316 319
Effective range, singlet state      17 36 311 319
Effective range, triplet state      311 319
Electric quadrupole      (see Photoproduction Radiative Scattering)
Electron showers      (see Showers)
Electron-neutron interaction      (see Neutron-electron interaction)
Eleotric dipole      (see Photoproduction Radiative Scattering)
Eleotron production of pions      407
Energy in center-of-mass system      (see Center-of-mass relations Center-of-mass
Energy momentum relations      132—33
Energy of disintegration      (see Disintegration energy)
Energy shell      197
Equivalence theorem      20 22 134 188
Evaporation model      348
Excited states of nucleon      (see Isobar nucleon states Phase Photoproduction Scattering)
Expansion coefficients      (see Tamm — Danooff method)
Fermi multiple production theory      (see Multiple meson production)
Fermi universal interaction      (see Universal interaction)
Fermi-Yang ambiguity      (see Phase shifts for $\pi$ meson-nucleon scattering)
Feynman notation      xii
Foldy — Dyson transformation      271 304 315
Foldy’s interaction      298
Four-vector notation      xii
Fredholm approximation      232—33
Gamma matrix      44
Gauge invariance      259 265—66
Heavy particles      (see also Baryon law of conservation)
Hyperon-nucleus system      379—80
Hyperons      7 373 74 377—80 404
I-spin      (see Isotopic spin)
Integral equation for njeson-nucleon scattering      (see Relativistic integral equation Scattering Chew’s Tamm
Iso-spin      (see Isotopic spin)
Isobar nucleon states      188
Isobaric spin      (see Isotopic spin)
Isotopic multiplet      42—43
Isotopic singlet      42
Isotopic triplet      42
Isptopic spin      (see Nuclear forces Old
Isptopic spin and angular momentum      64
Isptopic spin and curious particles      391—92
Isptopic spin for A nucleons      40—43
Isptopic spin for nucleon-meson system      57—59
Isptopic spin for two nucleons      39—43
Isptopic spin in field theory      44—45
Isptopic spin in nucleon-nucleon collisions      335 38
Isptopic spin of $\pi$ mesons      55—57
Isptopic spin, conservation of      53—55 61
Isptopic spin, energy levels and      42—43
Isptopic spin, general      35—62
Isptopic spin, matrix      39
Isptopic spin, notation      xii 334 336
Isptopic spin, operators      38—39 40 223
Isptopic spin, quantum numbers      40—41
Isptopic spin, rotations      54
Isptopic spin, symmetry of      39—40
Isptopic spin, wave function of $\pi$ mesons      56
Isptopic spin, wave function of nucleon      38
Isptopic spin, wave function of nucleon-meson system      59—61
K group of mesons      373 376 387 388 390—95 K and
K group of mesons and $\mu$ decays      367
K group of mesons, frequency in showers      385
K particles      (see $\tau$ meson
Kappa particle      (see K particles
Kemmer theory      
(see Nuclear forces Symmetric
Lamb effect      (see Vertex operator corrections)
Lamb shift      206
Lambda particle      47 373—74 377—79 386—95
Lennard-Jones perturbation theory      199
Levy’s theory      (see Nuclear forces)
Lifetime of $K_{\pi2}$      374
Lifetime of $\Lambda^{0}$      374 377
Lifetime of $\mu$      365
Lifetime of $\Omega^{-}$      374
Lifetime of $\pi^{\pm}$      404
Lifetime of $\sum^{\pm}$      374 378
Lifetime of charged $\tau$      374 382 383
Lifetime of positronium      13
Lorentz transformation      4
Loreutz contraction      346 349
Low’s scattering theory      406—7
Magnetic moment and Coulomb scattering      83
Magnetic moment and nuclear potential      37
Magnetic moment, anomalous pact      290
Magnetic moment, effect on photoproduction      138—39
Magnetic moment, exact nucleon propagation function      295
Magnetic moment, Foldy’s interaction      298
Magnetic moment, higher order corrections      293—94
Magnetic moment, historical      289—91
Magnetic moment, old strong couplings      189 290 91
Magnetic moment, perturbation theory      291—93
Magnetic moment, phenomenological theory of Sachs      295—97
Magnetic moment, suppression of negative intermediate states      294
Magnetic moment, weak coupling      291
Magnetic, dipole      (see Photoproduction Radiative Scattering)
Mass difference of charged and neutral mesons      4 5 82
Mass difference of proton and neutron      5 297
Mass of $K_{\mu2}$      374 383
Mass of charged $\tau$      374 380
Mesic atoms      xii 14 15 103—8 365 372—73
Mesic atoms, formation      14
Mesic atoms, meson capture by nucleus      14 103
Mesic atoms, nuclear interaction in S states      103—8 372
Mesic atoms, nuclear size from      72
Mesic atoms, transition to ground state      14 15
Mesic atoms, vacuum polarization      108 365 372—73
Meson theory history      192—99
Meson-meson interaction      245
Meson-nucleon collision giving, meson production, 1.4 Bev $\pi^{-}$ on neutrons      361 1 4
Meson-nucleon collision giving, meson production, 1.4 Bev $\pi^{-}$ on protons      359—62 500
Meson-nucleon collision giving, meson production, 500 Mev $\pi^{-}$ on protons      363—64
Meson-nucleon collision giving, multiple production      360—61
Meson-nucleon collision giving, Tamm — Dancoff theory      362—63
Mirror nuclei      36 42
Mirror theorem      295
Moller interaction      206
Moller — Roseufeld mixture      (see Nuclear forces mixture
Mu meson and $\beta$ decay      367—70 (see also Mesic atoms)
Mu meson and electromagnetic interaction      371
Mu meson and nuclear forces      186
Mu meson in cosmic rays      365
Mu meson, capture      369—70
Mu meson, decay and Fermi interaction      367 69
Mu meson, decay electron spectrum      365 367 68
Mu meson, decay scheme      365 367—69
Mu meson, interaction with other particles      xi 186 371—72
Mu meson, lifetime      365
Mu meson, mass      365
Mu meson, production      366
Mu meson, spin      365—66
Multiple meson production      (see also Meson-nucleon collisions giving meson production)
Multiple meson production and phase, shift, analysis      118 126
Multiple meson production from protons on beryllium      355—59
Multiple meson production from protons on beryllium, $\pi^{+}$ to $\pi^{-}$ ratio      336 357—59
Multiple meson production from protons on beryllium, pion momentum spectrum      355 57
Multiple meson production from protons on hydrogen      356
Multiple meson production in N-P Collisions      349—55
Multiple meson production, angular distribution      357
Multiple meson production, center-of-mass energies      353
Multiple meson production, data at 1.2 to 2.2 Bev      351
Multiple meson production, enhancement dug to deuteron formation      354
Multiple meson production, exoited state      353—54
Multiple meson production, Fermi’s statistical theory      346—49 350 2 354
Multiple meson production, Fermi’s statistical theory angular distribution      348
Multiple meson production, Fermi’s statistical theory nucleon pairs      348
Multiple meson production, Kraushaar-Marks statistical theory      348—49
Multiple meson production, low energy region      362—64
Multiple meson production, meson energy distribution      357
Multiple meson production, theories      345—49
Multiple meson production, turbulence model      346
Multiple meson production, versus plural production      344—45
N particles (in cosmic radiation)      344
Neutrino      366—70
Neutron operator      44
Neutron-electron interaction      207—99
Neutron-neutron interaction      16—17
Neutron-proton scattering      36 308 321
Neutronic charge      47
Notation      xii xiii
Nuclear forces      (see also Pair term Renormalization Repulsive Symmetric Tamim
Nuclear forces and Tamm — Dancoff approximation      194
Nuclear forces, $\delta$ function interaction      194 302 303 306—7
Nuclear forces, Bethe — Salpeter equation      (see there)
Nuclear forces, between neutron and proton      308
Nuclear forces, between two neutrons      53
Nuclear forces, between two protons      53 308 311 12
Nuclear forces, Brueokner — Watson theory      315—19 321
Nuclear forces, Brueokner — Watson theory, numerical results      319
Nuclear forces, central force      301—2 310 313 316 3
Nuclear forces, change-independent interaction      49—52
Nuclear forces, charge-symmetry theory      300—302
Nuclear forces, classical theory      299—302
Nuclear forces, effective range      (see there)
Nuclear forces, exohange type      43 52
Nuclear forces, general description      193—94
Nuclear forces, heavy meson influence      309 394 95
Nuclear forces, Henley — Ruderman theory      313 319—20
Nuclear forces, high energy interaction      320—21
Nuclear forces, higher orders      306 3
Nuclear forces, isotopio spin      36 43 321
Nuclear forces, Klein’s theory      270—71 305 312 15
Nuclear forces, Levy’s thedry      193 94 304—12
Nuclear forces, mixture theories      302—3
Nuclear forces, numerical fit      309—12
Nuclear forces, repulsive core      194 306—9
Nuclear forces, tensor force      43 301—2 307 310 311 313
Nuclear forces, through neutral meson      52
Nuclear forces, through oharged meson      52
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