This much-needed book - the most comprehensive, up-to-date text available on nuclear physics - expertly details the numerous theoretical techniques central to the discipline. It is based on lecture notes from a three-lecture series given at CEBAF (the Continuous Electron Beam Accelerator Facility), where John Dirk Walecka at the time was Scientific Director: Graduate Quantum Mechanics, Advanced Quantum Mechanics and Field Theory, and Special Topics in Nuclear Physics. The primary goal of this text is pedagogical; providing a clear, logical, in-depth, and unifying treatment of many diverse aspects of modern nuclear theory ranging from the non-relativistic many-body problem to the standard model of the strong, electromagnetic, and weak interactions. Four key topics are emphasized in this text: basic nuclear structure, the relativistic nuclear many-body problem, strong-coupling QCD, and electroweak interactions with nuclei. The text is designed to provide graduate students with a basic level of understanding of modern nuclear physics so that they in turn can explore the scientific frontiers. Written by an eminent authority in the field, Theoretical Nuclear and Subnuclear Physics will be welcomed by graduate students and researchers alike.
This much-needed book -- the most comprehensive, up-to-date text available on nuclear physics -- expertly details the numerous theoretical techniques central to the discipline. It is based on lecture notes from a three-lecture series given at CEBAF (the Continuous Electron Beam Accelerator Facility), where John Dirk Walecka was at the time Scientific Director: Graduate Quantum Mechanics, Advanced Quantum Mechanics and Field Theory, and Special Topics in Nuclear Physics. The primary goal of this text is pedagogical; providing a clear, logical, in-depth, and unifying treatment of many diverse aspects of modern nuclear theory ranging from the non-relativistic many-body problem to the standard model of the strong, electromagnetic, and weak interactions. Four key topics are emphasized: basic nuclear structure, the relativistic nuclear many-body problem, strong-coupling QCD, and electroweak interactions with nuclei. The text is designed to provide graduate students with a basic level of understanding of modern nuclear physics so that they in turn can explore the scientific frontiers. Written by an eminent authority in the field, it will be welcomed by graduate students and researchers alike.
