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This volume deals mainly with physics related to the RHIC. It contains one of the first reports on the results of RHIC experiments.
This book presents a recent survey of the advances in hadron physics. The main topics are nonperturbative high energy processes in QCD, deep inelastic scattering and perturbative QCD, RHIC and quark-gluon plasma physics and effective theories for low energy QCD.The book contains four series of lectures written in a pedagogical style and a number of short papers on the main subject. They will benefit researchers who want to be familiar with the frontiers of hadron physics and its connection with the large experimental programs under development in laboratories such as the Relativistic Heavy Ion Collider (RHIC) and the Thomas Jefferson National Laboratory.
The history of spin in general, and of the nucleon spin structure in particular, has been full of surprises. For the past 25 years deep inelastic lepton scattering has been studied to determine the carriers of the nucleon spin. However, it was realized only recently that a full understanding of the nucleon spin will also require detailed information on the helicity structure in the resonance region, i.e. in the realm of nonperturbative QCD.This volume gives a status report on the spin structure in the nucleon resonance region, focusing on: new experimental results from SLAC and HERMES; a first glance at the JLab experiments to map out the spin structure functions at low and intermediate four-momentum transfers; the pioneering experiment at MAMI (Mainz) to determine the Gerasimov-Drell-Hearn sum rule for real photons; and recent theoretical concepts and investigations to describe the spin structure in the frameworks of higher twist expansion, phenomenological models and chiral perturbation theory.
The history of spin in general, and of the nucleon spin structure in particular, has been full of surprises. For the past 25 years deep inelastic lepton scattering has been studied to determine the carriers of the nucleon spin. However, it was realized only recently that a full understanding of the nucleon spin will also require detailed information on the helicity structure in the resonance region, i.e. in the realm of nonperturbative QCD.This volume gives a status report on the spin structure in the nucleon resonance region, focusing on: new experimental results from SLAC and HERMES; a first glance at the JLab experiments to map out the spin structure functions at low and intermediate four-momentum transfers; the pioneering experiment at MAMI (Mainz) to determine the Gerasimov-Drell-Hearn sum rule for real photons; and recent theoretical concepts and investigations to describe the spin structure in the frameworks of higher twist expansion, phenomenological models and chiral perturbation theory.
The purpose of Hadron 05 was to discuss recent developments in hadron spectroscopy. New hadrons have been discovered in the past few years. These states do not quite fit into the traditional quark model classification scheme of hadrons. There has also been a remarkable improvement in the understanding of heavy quark bound systems, or heavy quarkonia, as well as the so-called scalar mesons. Topics covered include baryons, exotics, and hadron structure.
This volume outlines the exciting new opportunities in hadron physics which have been created by the Japan Hadron Facility (JHF), a major joint initiative between KEK and JAERI. The topics covered include unprecedented possibilities of studying strange matter, neutrino oscillations and hadron structure. The close interaction with lattice QCD is emphasised.
Nine tutorial lectures, another five invited lectures, 33 short talks, and a workshop summary document the largest meeting on high-energy physics held to date in Mexico. The major topics are charm decays in fixed target experiments, physics at the Tevatron, neutrinos and physics beyond the standard