Treatment of baryonic resonances in the RQMD approach including scalar-vector mean fields
arXiv:nucl-th/9702028
Abstract
In the relativistic Quantum Molecular Dynamics (RQMD) approach baryons are described within the framework of covariant hamilton constraint dynamics. The inclusion of a relativistic mean field results in a quasiparticle picture for the baryons. This requires to distinguish between canonical and kinetic variables of the particles. As resonances we include the $Î$(1232) and the $N^*$(1440) resonance. The resonance masses are distributed according Breit-Wigner functions. However, the scalar self energy leads to a shift in the masses and introduces an additional medium dependence. Consequences of this description on resonance and pion dynamics are discussed.
8 pages Latex, 4 PS-figures; To appear in the proceedings of the 25th International Hirschegg Workshop on Properties of Nuclei and Nuclear Excitations, Jan 13-18, 1997 "QCD Phase Transitions"