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Techniques and Concepts of High-Energy Physics XII
The twelfth Advanced Study Institute (ASI) on Techniques and Con cepts of High Energy Physics was held at the Hotel on the Cay in St. Croix, U.S. Virgin Islands in June 2002. The Institute attracted 11 lecturers and 42 advanced PhD students and recent PhD recipients in experimental particle physics from 14 different countries. The scientific program covered a broad sweep of topics that are expected to remain of interest for many years to come. The topics in this volume complement those in earlier volumes (published by Kluwer) and should be of interest to many physicists. The main financial support for the Institute was provided by the Scientific Affairs Division of the North Atlantic Treaty Organization (NATO). The Institute was eo-sponsored by the U.S. Department of Energy (DOE), the Fermi National Accelerator Laboratory (Fermilab), the U.S. National Science Foundation (NSF), the Florida State Univer sity (FSU) - Offices of the Provost and the Dean of Arts and Sciences, the Department of Physics and the FSU High Energy Physics Group - and the Institute for Theoretical and Experimental Physics (ITEP, Moscow).
Advanced Particle Physics
Helping readers understand the complicated laws of nature, Advanced Particle Physics Volume I: Particles, Fields, and Quantum Electrodynamics explains the calculations, experimental procedures, and measuring methods of particle physics. It also describes modern physics devices, including accelerators, elementary particle detectors, and neutrino telescopes. The book first introduces the mathematical basis of modern quantum field theory. It presents the most pertinent information on group theory, proves Noether’s theorem, and determines the major motion integrals connected with both space and internal symmetry. The second part on fundamental interactions and their unifications discusses the ...
Los Alamos Science
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Particles Physics At The Year Of 250th Anniversary Of Moscow University - Proceedings Of The 12th Lomonosov Conference On Elementary Particle Physics
These proceedings are devoted to a wide variety of both theoretical and experimental, areas in particle physics. The topics include neutrino and astroparticle physics, tests of the Standard Model and beyond, heavy quark physics, non-perturbative QCD, quantum gravity effects and cosmology, and the physics in the accelerators of the future.
Neutrinos in Physics and Astrophysics
Neutrinos are the central thread in the study of many aspects of particle physics and astrophysics. Neutrino interactions test the standard electroweak theory and its TeV scale extensions, and examine the structure of the nucleon and of the CKM matrix. Searches for neutrino mass and other intrinsic properties probe new physics at very short distance scales. The weak interactions of neutrinos imply for them a unique role in studying the early universe, the core of the Sun, type II supernovae, and active galactic nuclei, and suggest the possibility of small neutrino masses contributing to the missing matter in the Universe, especially on very large distance scales.
Neutrinos In Physics And Astrophysics From: 10-33 To 10+28 Cm (Tasi 1998)
Neutrinos are the central thread in the study of many aspects of particle physics and astrophysics. Neutrino interactions test the standard electroweak theory and its TeV scale extensions, and examine the structure of the nucleon and of the CKM matrix. Searches for neutrino mass and other intrinsic properties probe new physics at very short distance scales. The weak interactions of neutrinos imply for them a unique role in studying the early universe, the core of the Sun, type II supernovae, and active galactic nuclei, and suggest the possibility of small neutrino masses contributing to the missing matter in the Universe, especially on very large distance scales.
The Physics Of Massive Neutrinos
This book explains the physics and phenomenology of massive neutrinos. The authors argue that neutrino mass is not unlikely and consider briefly the search for evidence of this mass in decay processes before they examine the physics and phenomenology of neutrino oscillation. The physics of Majorana neutrinos (neutrinos which are their own antiparticles) is then discussed. This volume requires of the reader only a knowledge of quantum mechanics and of very elementary quantum field theory.
Physics in D >
This book contains write-ups of lectures from a summer school for advanced graduate students in elementary particle physics. In the first lecture, Scott Willenbrock gives an overview of the standard model of particle physics. This is followed by reviews of specific areas of standard model physics: precision electroweak analysis by James Wells, quantum chromodynamics and jets by George Sterman, and heavy quark effective field by Matthias Neubert. Developments in neutrino physics are discussed by Andr de Gouvea and the theory behind the Higgs boson is addressed by Laura Reina. Collider phenomenology from both experimental and theoretical perspectives are highlighted by Heidi Schellman and Tao Han. A brief survey of dynamical electroweak symmetry breaking is provided by R Sekhar Chivukula and Elizabeth H Simmons. Martin Schmaltz covers the recent proposals for ?little? Higgs theories. Markus Luty describes what is needed to make supersymmetric theories realistic by breaking supersymmetry. There is an entire series of lectures by Raman Sundrum, Graham Kribs, and Csaba Cs ki on extra dimensions. Finally, Keith Olive completes the book with a review of astrophysics.
High Energy Phenomenology - Proceedings Of The Workshop
Contents:Radiative Corrections in the Electroweak Standard Model (M Böhm & A Denner)Hadron Collider Physics (L G Pondrom)Lectures on Heavy Quark Effective Theory (B Grinstein)An Overview of Nonleptonic Decays of B, D, K Mesons and CP-Noninvariance (L-L Chau)Top Quark Physics (G L Kane)High Precision Radiative Corrections in the Semileptonic Decays of Hyperons (S R Juárez W)On the Decay W± → P>±γ (A Queijeiro)The Decay H0→γγ and Physics Beyond the Standard Model (M A Pérez & J J Toscano)Neutrino Masses and Double Beta Decay (J G Hirsch)Neutrino Oscillations in a Medium: Analytic Calculation of Nonadiabatic Transitions (J C D'Olivo)Gauge-Invariant Perturbation Theory Near a Gauge Resonance (R G Stuart)Lower Dimensional Divergences in Gauge Theories (M Vargas & J L L Martínez)Strange Stars: Which is the Ground State of QCD at Finite Baryon Number? (D Page)Experimental Signatures of the SU(5)cc Color Model (O F Hernández)Generalized Supersymmetric Quantum Mechanics (M Moreno & R M Méndez Moreno)Chern-Simons Theories in 2+1 Dimensions (L F Urrutia) Readership: High energy physicists. keywords:
Symmetries and Fundamental Interactions in Nuclei
This book shows the usefulness of the nucleus as a laboratory for learning about basic symmetries and fundamental interactions. It is aimed at advanced graduate students and beginning researchers, but should be useful to advanced researchers as well. Nuclear and particle physicists will find it particularly useful.
