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The Resource Theoretical nuclear and subnuclear physics, John Dirk Walecka

Theoretical nuclear and subnuclear physics, John Dirk Walecka

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The item Theoretical nuclear and subnuclear physics, John Dirk Walecka represents a specific, individual, material embodiment of a distinct intellectual or artistic creation found in University of Liverpool.
This item is available to borrow from 1 library branch.

Creator

Walecka, John Dirk, 1932-

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

Language: eng

Work

Publication

London, Imperial College Press, Singapore | Hackensack, NJ, World Scientific, c2004

Edition: 2nd ed.

Extent: xix, 607 p.

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

Isbn: 9789812387950

Instance

Label: Theoretical nuclear and subnuclear physics

Title: Theoretical nuclear and subnuclear physics

Statement of responsibility: John Dirk Walecka

Creator

Walecka, John Dirk, 1932-

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

Theoretical nuclear and subnuclear physics

Publication

London, Imperial College Press, Singapore | Hackensack, NJ, World Scientific, c2004

Bibliography note: Includes bibliographical references (p. 578-592) and index

Carrier category: volume

Carrier category code

Carrier MARC source: rdacarrier

Content category: text

Content type code

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

Other physical details: ill.

Label: Theoretical nuclear and subnuclear physics, John Dirk Walecka

Publication

London, Imperial College Press, Singapore | Hackensack, NJ, World Scientific, c2004

Bibliography note: Includes bibliographical references (p. 578-592) and index

Carrier category: volume

Carrier category code

Carrier MARC source: rdacarrier

Content category: text

Content type code

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

Other physical details: ill.

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