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The Resource Theoretical nuclear and subnuclear physics, John Dirk Walecka

Theoretical nuclear and subnuclear physics, John Dirk Walecka

Label
Theoretical nuclear and subnuclear physics
Title
Theoretical nuclear and subnuclear physics
Statement of responsibility
John Dirk Walecka
Creator
Subject
Language
eng
Summary
"This book is a revised and updated version of the most comprehensive text on nuclear physics, first published in 1995. It maintains the original goal of providing a clear, logical, in-depth and unifying treatment of modern nuclear theory, ranging from the nonrelativistic many-body problem to the standard model of the strong, electromagnetic, and weak interactions. In addition, new chapters on the theoretical and experimental advances made in nuclear physics in the past decade have been incorporated." "This book is designed to provide graduate students with a basic understanding of modern nuclear and hadronic physics needed to explore the frontiers of the field. Researchers will benefit from the updates on developments and the bibliography."--BOOK JACKET
Cataloging source
NTU
http://library.link/vocab/creatorDate
1932-
http://library.link/vocab/creatorName
Walecka, John Dirk
Illustrations
illustrations
Index
index present
Literary form
non fiction
Nature of contents
bibliography
http://library.link/vocab/subjectName
  • Nuclear structure
  • Nuclear reactions
  • Electroweak interactions
  • Continuous Electron Beam Accelerator Facility
  • Continuous Electron Beam Accelerator Facility
Label
Theoretical nuclear and subnuclear physics, John Dirk Walecka
Instantiates
Publication
Bibliography note
Includes bibliographical references (p. 578-592) and index
Carrier category
volume
Carrier category code
  • nc
Carrier MARC source
rdacarrier
Content category
text
Content type code
  • txt
Content type MARC source
rdacontent
Contents
  • Pt. I.
  • Basic nuclear structure.
  • p. 1
  • Ch. 1.
  • Nuclear forces - a review.
  • p. 3
  • Ch. 2.
  • Nuclear matter.
  • p. 13
  • Ch. 3.
  • independent-particle Fermi-gas model.
  • p. 20
  • Ch. 4.
  • independent-pair approximation.
  • p. 26
  • Ch. 5.
  • shell model.
  • p. 36
  • Ch. 6.
  • many-particle shell model.
  • p. 45
  • Ch. 7.
  • Electromagnetic interactions.
  • p. 53
  • Ch. 8.
  • Electromagnetism and the shell model.
  • p. 71
  • Ch. 9.
  • Excited states - equations of motion.
  • p. 81
  • Ch. 10.
  • Collective modes - a simple model with - g[delta][superscript (3)](r).
  • p. 91
  • Ch. 11.
  • Application to a real nucleus - [superscript 16]O.
  • p. 101
  • Ch. 12.
  • Problems : part 1.
  • p. 106
  • Pt. 2.
  • relativistic nuclear many-body problem.
  • p. 115
  • Ch. 13.
  • Why field theory.
  • p. 117
  • Ch. 14.
  • simple model with ([phi], V[subscript [mu]]) and relativistic mean field theory.
  • p. 119
  • Ch. 15.
  • Extensions of relativistic mean field theory.
  • p. 129
  • Ch. 16.
  • Quantum hadrodynamics (QHD-I).
  • p. 136
  • Ch. 17.
  • Applications.
  • p. 143
  • Ch. 18.
  • Some thermodynamics.
  • p. 152
  • Ch. 19.
  • QCD and a phase transition.
  • p. 160
  • Ch. 20.
  • Pions.
  • p. 169
  • Ch. 21.
  • Chiral invariance.
  • p. 178
  • Ch. 22.
  • [sigma]-model.
  • p. 187
  • Ch. 23.
  • Dynamic resonances.
  • p. 195
  • Ch. 24.
  • Effective field theory.
  • p. 207
  • Ch. 25.
  • Density functional theory - an overview.
  • p. 226
  • Ch. 26.
  • Problems : part 2.
  • p. 231
  • Pt. 3.
  • Strong - coupling QCD.
  • p. 245
  • Ch. 27.
  • QCD - a review.
  • p. 247
  • Ch. 28.
  • Path integrals.
  • p. 259
  • Ch. 29.
  • Lattice gauge theory.
  • p. 271
  • Ch. 30.
  • Mean field theory.
  • p. 283
  • Ch. 31.
  • Nonabelian theory - SU(2).
  • p. 296
  • Ch. 32.
  • Mean field theory - SU(n).
  • p. 308
  • Ch. 33.
  • Observables in LGT.
  • p. 316
  • Ch. 34.
  • Strong-coupling limit.
  • p. 329
  • Ch. 35.
  • Monte Carlo calculations.
  • p. 339
  • Ch. 36.
  • Include fermions.
  • p. 351
  • Ch. 37.
  • QCD-inspired models.
  • p. 361
  • Ch. 38.
  • Deep-inelastic scattering.
  • p. 382
  • Ch. 39.
  • Evolution equations.
  • p. 398
  • Ch. 40.
  • Heavy-ion reactions and the quark-gluon plasma.
  • p. 409
  • Ch. 41.
  • Problems : part 3.
  • p. 421
  • Pt. 4.
  • Electroweak interactions with nuclei.
  • p. 429
  • Ch. 42.
  • Weak interaction phenomenology.
  • p. 431
  • Ch. 43.
  • Introduction to the standard model.
  • p. 446
  • Ch. 44.
  • Quarks in the standard model.
  • p. 460
  • Ch. 45.
  • Weak interactions with nuclei.
  • p. 466
  • Ch. 46.
  • Semileptonic weak processes.
  • p. 479
  • Ch. 47.
  • Some applications.
  • p. 494
  • Ch. 48.
  • Full quark sector of the standard model.
  • p. 513
  • Ch. 49.
  • Neutrinos.
  • p. 518
  • Ch. 50.
  • Electron scattering.
  • p. 527
  • Ch. 51.
  • Problems : part 4.
  • p. 539
  • Pt. 5.
  • Appendices.
  • p. 547
Control code
ocm56940919
Dimensions
26 cm.
Edition
2nd ed.
Extent
xix, 607 p.
Isbn
9789812387950
Media category
unmediated
Media MARC source
rdamedia
Media type code
  • n
Other physical details
ill.
Label
Theoretical nuclear and subnuclear physics, John Dirk Walecka
Publication
Bibliography note
Includes bibliographical references (p. 578-592) and index
Carrier category
volume
Carrier category code
  • nc
Carrier MARC source
rdacarrier
Content category
text
Content type code
  • txt
Content type MARC source
rdacontent
Contents
  • Pt. I.
  • Basic nuclear structure.
  • p. 1
  • Ch. 1.
  • Nuclear forces - a review.
  • p. 3
  • Ch. 2.
  • Nuclear matter.
  • p. 13
  • Ch. 3.
  • independent-particle Fermi-gas model.
  • p. 20
  • Ch. 4.
  • independent-pair approximation.
  • p. 26
  • Ch. 5.
  • shell model.
  • p. 36
  • Ch. 6.
  • many-particle shell model.
  • p. 45
  • Ch. 7.
  • Electromagnetic interactions.
  • p. 53
  • Ch. 8.
  • Electromagnetism and the shell model.
  • p. 71
  • Ch. 9.
  • Excited states - equations of motion.
  • p. 81
  • Ch. 10.
  • Collective modes - a simple model with - g[delta][superscript (3)](r).
  • p. 91
  • Ch. 11.
  • Application to a real nucleus - [superscript 16]O.
  • p. 101
  • Ch. 12.
  • Problems : part 1.
  • p. 106
  • Pt. 2.
  • relativistic nuclear many-body problem.
  • p. 115
  • Ch. 13.
  • Why field theory.
  • p. 117
  • Ch. 14.
  • simple model with ([phi], V[subscript [mu]]) and relativistic mean field theory.
  • p. 119
  • Ch. 15.
  • Extensions of relativistic mean field theory.
  • p. 129
  • Ch. 16.
  • Quantum hadrodynamics (QHD-I).
  • p. 136
  • Ch. 17.
  • Applications.
  • p. 143
  • Ch. 18.
  • Some thermodynamics.
  • p. 152
  • Ch. 19.
  • QCD and a phase transition.
  • p. 160
  • Ch. 20.
  • Pions.
  • p. 169
  • Ch. 21.
  • Chiral invariance.
  • p. 178
  • Ch. 22.
  • [sigma]-model.
  • p. 187
  • Ch. 23.
  • Dynamic resonances.
  • p. 195
  • Ch. 24.
  • Effective field theory.
  • p. 207
  • Ch. 25.
  • Density functional theory - an overview.
  • p. 226
  • Ch. 26.
  • Problems : part 2.
  • p. 231
  • Pt. 3.
  • Strong - coupling QCD.
  • p. 245
  • Ch. 27.
  • QCD - a review.
  • p. 247
  • Ch. 28.
  • Path integrals.
  • p. 259
  • Ch. 29.
  • Lattice gauge theory.
  • p. 271
  • Ch. 30.
  • Mean field theory.
  • p. 283
  • Ch. 31.
  • Nonabelian theory - SU(2).
  • p. 296
  • Ch. 32.
  • Mean field theory - SU(n).
  • p. 308
  • Ch. 33.
  • Observables in LGT.
  • p. 316
  • Ch. 34.
  • Strong-coupling limit.
  • p. 329
  • Ch. 35.
  • Monte Carlo calculations.
  • p. 339
  • Ch. 36.
  • Include fermions.
  • p. 351
  • Ch. 37.
  • QCD-inspired models.
  • p. 361
  • Ch. 38.
  • Deep-inelastic scattering.
  • p. 382
  • Ch. 39.
  • Evolution equations.
  • p. 398
  • Ch. 40.
  • Heavy-ion reactions and the quark-gluon plasma.
  • p. 409
  • Ch. 41.
  • Problems : part 3.
  • p. 421
  • Pt. 4.
  • Electroweak interactions with nuclei.
  • p. 429
  • Ch. 42.
  • Weak interaction phenomenology.
  • p. 431
  • Ch. 43.
  • Introduction to the standard model.
  • p. 446
  • Ch. 44.
  • Quarks in the standard model.
  • p. 460
  • Ch. 45.
  • Weak interactions with nuclei.
  • p. 466
  • Ch. 46.
  • Semileptonic weak processes.
  • p. 479
  • Ch. 47.
  • Some applications.
  • p. 494
  • Ch. 48.
  • Full quark sector of the standard model.
  • p. 513
  • Ch. 49.
  • Neutrinos.
  • p. 518
  • Ch. 50.
  • Electron scattering.
  • p. 527
  • Ch. 51.
  • Problems : part 4.
  • p. 539
  • Pt. 5.
  • Appendices.
  • p. 547
Control code
ocm56940919
Dimensions
26 cm.
Edition
2nd ed.
Extent
xix, 607 p.
Isbn
9789812387950
Media category
unmediated
Media MARC source
rdamedia
Media type code
  • n
Other physical details
ill.

Library Locations

    • Harold Cohen LibraryBorrow it
      Ashton Street, Liverpool, L69 3DA, GB
      53.418074 -2.967913
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