We present several possibilities offered by the reaction dynamics of dissipative heavy ion collisions to study in detail the symmetry term of the nuclear equation of state, EOS. In particular we discuss isospin effects on the nuclear liquid-gas phase transition, Isospin Distillation, and on collective flows. We stress the importance of a microscopic relativistic structure of the effective interaction in the isovector channel. The possibility of an early transition to deconfined matter in high isospin density regions is also suggested. We finally select Eleven observables, in different beam energy regions, that appear rather sensitive to the isovector part of the nuclear EOS, in particular in more exclusive experiments.
Dynamics of phase transitions in asymmetric nuclear matter
DRAGO, Alessandro;
2003
Abstract
We present several possibilities offered by the reaction dynamics of dissipative heavy ion collisions to study in detail the symmetry term of the nuclear equation of state, EOS. In particular we discuss isospin effects on the nuclear liquid-gas phase transition, Isospin Distillation, and on collective flows. We stress the importance of a microscopic relativistic structure of the effective interaction in the isovector channel. The possibility of an early transition to deconfined matter in high isospin density regions is also suggested. We finally select Eleven observables, in different beam energy regions, that appear rather sensitive to the isovector part of the nuclear EOS, in particular in more exclusive experiments.I documenti in SFERA sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
