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The field of nuclear dynamics has evolved tremendously over the course of the 15 years of this workshop series. The workshop presently spans a very broad range of research interests. These include the development of concepts that will form the foundation of research for the quark-gluon plasma as well as current studies of very hot and dense baryonic matter through the measurement of pions, strange particles, dileptons, baryons and antimatter. The investigation of the decay of extremely hot nuclear systems blossomed with the dramatic observation of multifragmentation of heavy systems and detailed studies of the temporal and spatial extent of the system emitting fragments at a wide range of excitation energies. This also includes a continuing search for the liquid-gas phase transition in nuclear matter. An entirely new field of inquiry has begun with the advent of reaction studies with radioactive beams.This international workshop, attended by theorists and experimentalists from 20 institutions and 6 countries, continues to provide the opportunity for cross-fertilization between researchers involved in the broad range of research in nuclear dynamics as well as stimulating the interaction between experimentalists and theorists. The present status of research in the vigorous field of nuclear dynamics is reviewed.
The past decade has seen the development of the operational understanding of fun damental interactions within the standard model. This has detoured our attention from the great enigmas posed by the dynamics and collective behavior of strongly interacting particles. Discovered more than 30 years ago, the thermal nature of the hadronic particle spectra has stimulated considerable theoretical effort, which so far has failed to 'confirm' on the basis of microscopic interactions the origins of this phenomenon. However, a highly successful Statistical Bootstrap Model was developed by Rolf Hagedorn at CERN about 30 years ago, which has led us to consider the 'boiling hadronic matter' as a transient state in the trans formation of hadronic particles into their melted form which we call Quark-GIuon-Plasma (QGP). Today, we return to seek detailed understanding of the thermalization processes of hadronic matter, equipped on the theoretical side with the knowledge of the fundamental strong interaction theory, the quantum chromo-dynamics (QCD), and recognizing the im portant role of the complex QCD-vacuum structure. On the other side, we have developed new experimental tools in the form of nuclear relativistic beams, which allow to create rather extended regions in space-time of Hot Hadronic Matter. The confluence of these new and recent developments in theory and experiment led us to gather together from June 27 to July 1, 1994, at the Grand Hotel in Divonne-Ies-Bains, France, to discuss and expose the open questions and issues in our field.
This first open access volume of the handbook series contains articles on the standard model of particle physics, both from the theoretical and experimental perspective. It also covers related topics, such as heavy-ion physics, neutrino physics and searches for new physics beyond the standard model. A joint CERN-Springer initiative, the "Particle Physics Reference Library" provides revised and updated contributions based on previously published material in the well-known Landolt-Boernstein series on particle physics, accelerators and detectors (volumes 21A, B1,B2,C), which took stock of the field approximately one decade ago. Central to this new initiative is publication under full open access