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Strong and Weak Interactions: Present Problems focuses on the reactions, transformations, and processes involved in strong and weak interaction, including baryonic, mesonic, and strange and non-strange resonances. The selection first offers information on unitary symmetry and hadron and lepton internal symmetries. Topics include internal symmetry for leptons, algebra of the hadron vector current, leptons and hadrons, and the search for higher symmetries. The text then elaborates on algebras and weak interactions and relativistic quark model as representation of algebra. The book takes a look at Regge poles in high-energy scattering and models of strong interactions. Discussions focus on electromagnetic properties, relations among strong vertices, medium-strong mass splittings, moving poles, high-energy kinematics, and Sommerfeld-Watson transformation. The text also ponders on meson resonances, phenomenology of resonances and particle supermultiplets, and meson photoproduction near threshold and commutation algebra. The selection is highly recommended for readers interested in strong and weak interactions.
This monograph presents a coherent and elementary introduction to Gauge theories of the fundamental interactions and their applications to high-energy physics. It deals with the logic and structure of local Gauge symmetries and Gauge theories, from quantum electrodynamics through unified theories of the interactions among leptons and quarks. Many explicit calculations provide the reader with practice in computing the consequences of these theories and offer a perspective on key experimental investigations. First published in 1983, this text is ideal for a one-semester course on Gauge theories and particle physics. Specialists in particle physics and others who wish to understand the basic ideas of Gauge theories will find it useful as a reference and for self-study.
A volume of selected original papers on the synthesis of the two fundamental forces of nature. It is intended to provide graduate students and physicists in the field with an easy access to the original literature.
This completely revised and updated graduate-level textbook is an ideal introduction to gauge theories and their applications to high-energy particle physics, and takes an in-depth look at two new laws of nature--quantum chromodynamics and the electroweak theory. From quantum electrodynamics through unified theories of the interactions among leptons and quarks, Chris Quigg examines the logic and structure behind gauge theories and the experimental underpinnings of today's theories. Quigg emphasizes how we know what we know, and in the era of the Large Hadron Collider, his insightful survey of the standard model and the next great questions for particle physics makes for compelling reading. The brand-new edition shows how the electroweak theory developed in conversation with experiment. Featuring a wide-ranging treatment of electroweak symmetry breaking, the physics of the Higgs boson, and the importance of the 1-TeV scale, the book moves beyond established knowledge and investigates the path toward unified theories of strong, weak, and electromagnetic interactions. Explicit calculations and diverse exercises allow readers to derive the consequences of these theories. Extensive annotated bibliographies accompany each chapter, amplify points of conceptual or technical interest, introduce further applications, and lead readers to the research literature. Students and seasoned practitioners will profit from the text's current insights, and specialists wishing to understand gauge theories will find the book an ideal reference for self-study. Brand-new edition of a landmark text introducing gauge theories Consistent attention to how we know what we know Explicit calculations develop concepts and engage with experiment Interesting and diverse problems sharpen skills and ideas Extensive annotated bibliographies
The accurate determination of the structure of molecular systems provides information about the consequences of weak interactions both within and between molecules. These consequences impact the properties of the materials and the behaviour in interactions with other substances. The book presents modern experimental and computational techniques for the determination of molecular structure. It also highlights applications ranging from the simplest molecules to DNA and industrially significant materials. Readership: Graduate students and researchers in structural chemistry, computational chemistry, molecular spectroscopy, crystallography, supramolecular chemistry, solid state chemistry and physics, and materials science.
Introduction / M. Shifman -- Introducing Boris Ioffe / B.V. Geshkenbein -- Boris Lazarevich Ioffe is 75 / I.B. Khriplovich -- ch. 1. Pages of the past. A top secret assignment / B.L. Ioffe. Editor's comments. Snapshots from the 1950's / Yu. F. Orlov -- ch. 2. The making of QCD. Quantizing the Yang-Mills field / L.D. Faddeev. The discovery of asymptotic freedom and the emergence of QCD / D.J. Gross. Editor's note. Recollections on dimensional regularization and related topics / C.G. Bollini. Historical curiosity: how asymptotic freedom of the Yang-Mills theory could have been discovered three times before Gross, Wilczek, and politzer, but was not / M. Shifman -- ch. 3. From hadrons to nuclei: crossing the border / S.R. Beane [und weitere] -- ch. 4. Chiral dynamics / H. Leutwyler -- ch. 5. Aspects of chiral symmetry / A. Smilga -- ch. 6. Nucleons as chiral solitons / D. Diakonov and V. Yu. Petrov -- ch. 7. Chiral QCD: baryon dynamics / U. MeiBner -- ch. 8. Hadrons in the 1/N expansion / A.V. Manohar -- ch. 9. QCD inequalities / S. Nussinov -- ch. 10. Regge poles in QCD / A.B. Kaidalov -- ch. 11. Small x physics and the colored glass condensate / L. McLerran -- ch. 12. On Gribov's ideas on confinement / A. Vainshtein -- ch. 13. QCD in a finite volume / P. van Baal -- ch. 14. Compact variables and singular fields in QCD / F. Lenz and S. Wörlen -- ch. 15. Instanton-induced effects in QCD / E.V. Shuryak -- ch. 16. Perturbative QCD and the parton structure of the nucleon / W.-K. Tung -- ch. 17. Multiloop evolution of the QCD coupling constant and quark masses / K.G. Chetyrkin -- ch. 18. Multi-parton amplitudes in QCD / Z. Bern -- ch. 19. Generalized parton distributions / A. Radyushkin -- ch. 20. Analytical QCD and multiparticle production / V.A. Khoze, W. Ochs and J. Wosiek -- ch. 21. Space-time picture of high energy scattering / H.G. Dosch -- ch. 22. High-energy QCD and Wilson lines / I. Balitsky -- ch. 23. Exclusive processes in quantum chromodynamics and the light-cone Fock representation / S.J. Brodsky -- ch. 24. Quark-hadron duality / M. Shifman -- ch. 25. QCD sum rules, a modern perspective / P. Colangelo and A. Khodjamirian -- ch. 26. Topics in the heavy quark expansion / N. Uraltsev -- ch. 27. Weak decays of heavy quarks / F. De Fazio -- ch. 28. Renormalons and power corrections / M. Beneke and V.M. Braun -- ch. 29. Confinement, magnetic Z[symbol] symmetry and low-energy effective theory of gluodynamics / A. Kovner -- ch. 30. Flux tubes and confinement in the Seiberg-Witten theory: lessons for QCD / A. Yung -- ch. 31. Millennial messages for QCD from the superworld and from the string / M.J. Strassler -- ch. 32. The center symmetry and its spontaneous breakdown at high temperature / K. Holland and U.-J. Wiese -- ch. 33. 2D model field theories and finite temperature and density / V. Schön and M. Thies -- ch. 34. Hot and dense QCD / A.V. Smilga -- ch. 35. The condensed matter physics of QCD / K. Rajagopal and F. Wilczek
A volume of selected original papers on the synthesis of the two fundamental forces of nature. It is intended to provide graduate students and physicists in the field with an easy access to the original literature.