Physics – Nuclear Physics – Nuclear Theory
Scientific paper
1997-10-02
Physics
Nuclear Physics
Nuclear Theory
Based on talked given at the CCAST (China Center for Advanced Science and Technology) Workshop on Recent Developments in Relat
Scientific paper
Theoretical and experimental studies of hot and/or dense matter, such as is created in high-energy heavy-ion collisions, and encountered in compact objects in astrophysics, constitute one of the most active frontiers in nuclear physics. In these Lectures, we discuss various approaches to the description of hot and/or dense matter, including the simple Skyrme-type parameterization and relativistic Walecka-type models, as well as microscopic Dirac-Brueckner and QCD sum rule approaches. As density and/or temperature of the hadronic system increases, chiral symmetry is gradually restored, as indicated by the decrease of quark condensate. This has profound effects on the properties of hadrons, especially their masses. We review various theoretical predictions for hadron properties in dense matter. Experimentally, possible medium modifications of hadron properties can be studied through the measurements of particle spectra, flow, and particularly, electromagnetic observables. Particle production, especially the production of rare particles such as kaons, vector mesons, and antiparticles, provides useful insight into heavy-ion collision dynamics, and hadron properties in dense matter. Collective flows of various kinds are important observables in heavy-ion collisions. They probe essentially the entire reaction process, and thus are very useful for the determination of the reaction dynamics. They also reflect the properties of hadrons in dense matter. Electromagnetic signals are considered penetrating probes that may carry undistorted information about the early stage of high-energy heavy-ion collisions. We discuss various theoretical calculations of dilepton and photon production in heavy-ion collisions at SPS energies and various medium effects that have been proposed to explain the observed low-mass dilepton enhancement.
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