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Derived from a course given at the University of Maryland for advanced graduate students, this book deals with some of the latest developments in our attempts to construct a unified theory of the fundamental interactions of nature. Among the topics covered are spontaneous symmetry breaking, grand unified theories, supersymmetry, and supergravity. The book starts with a quick review of elementary particle theory and continues with a discussion of composite quarks, leptons, Higgs bosons, and CP violation; it concludes with consideration of supersymmetric unification schemes, in which bosons and leptons are considered in some sense equivalent. The second edition is updated and corrected and contains new chapters on recent developments.
List of contents
Important Basic Concepts in Particle Physics.- Spontaneous Symmetry Breaking, Nambu-Goldstone Bosons, and the Higgs Mechanism.- The SU(2)L × U(l) Model.- CP Violation: Weak and Strong.- Grand Unification and the SU(5) Model.- Left-Right Symmetric Models of Weak Interactions and Massive Neutrinos.- SO(10) Grand Unification.- Technicolor and Compositeness.- Global Supersymmetry.- Field Theories with Global Supersymmetry.- Broken Supersymmetry and Application to Particle Physics.- Minimal Supersymmetric Standard Model.- Supersymmetric Grand Unification.- Local Supersymmetry (N = 1).- Application of Supergravity (N = 1) to Particle Physics.- Beyond N = 1 Supergravity.- Superstrings and Quark-Lepton Physics.
Summary
Derived from a course given at the University of Maryland for advanced graduate students, this book deals with some of the latest developments in our attempts to construct a unified theory of the fundamental interactions of nature. Among the topics covered are spontaneous symmetry breaking, grand unified theories, supersymmetry, and supergravity. the book starts with a quick review of elementary particle theory and continues with a discussion of composite quarks, leptons, Higgs bosons, and CP violation; it concludes with consideration of supersymmetric unification schemes, in which bosons and leptons are considered in some sense equivalent. The third edition will be completely revised and brought up to date, particularly by including discussions of the many experimental developments in recent years.
Additional text
From the reviews of the third edition:
"....The book covers a very wide range of phenomena within the large subject of grand unification and supersymmetry in elementary particle physics. Almost every possible development in the field is included here."-Mathreviews.com
"An extremely useful resource for graduate students and researchers, this textbook, which was derived from a course given at the University of Maryland for advanced graduate students deals with some of the latest developments in our attempts to construct a unified theory of nature’s fundamental interactions. … I can safely recommend this textbook, which gives a fairly complete and self-contained theoretical treatment of the subject." (Georges Kohnen, Physicalia, Vol. 57 (2), 2005)
Report
From the reviews of the third edition:
"....The book covers a very wide range of phenomena within the large subject of grand unification and supersymmetry in elementary particle physics. Almost every possible development in the field is included here."-Mathreviews.com
"An extremely useful resource for graduate students and researchers, this textbook, which was derived from a course given at the University of Maryland for advanced graduate students deals with some of the latest developments in our attempts to construct a unified theory of nature's fundamental interactions. ... I can safely recommend this textbook, which gives a fairly complete and self-contained theoretical treatment of the subject." (Georges Kohnen, Physicalia, Vol. 57 (2), 2005)
