D. V. Shetty, S. J. Yennello, G. A. Souliotis
Published 2006-10-12Version 1
The density dependence of the symmetry energy in the equation of state of asymmetric nuclear matter (N/Z $>$ 1) is important for understanding the structure of systems as diverse as the atomic nuclei and neutron stars. Due to a proper lack of understanding of the basic nucleon-nucleon interaction for matters that are highly asymmetric and at non-normal nuclear density, this very important quantity has remained largely unconstrained. Recent studies using beams from the Cyclotron Institute of Texas A$&$M University, constraining the density dependence of the symmetry energy, is presented. A dependence of the form E$_{sym}(\rho)$ = C($\rho/\rho_{o})^{\gamma}$, where C = 31.6 MeV and $\gamma$ = 0.69, is obtained from the dynamical and statistical model analysis. Their implications to both astrophysical and nuclear physics studies are discussed.
Comments: Invited talk, Proceedings of CAARI 2006, Forth Worth, Texas, Aug 20 -25, 2006
Density dependence of the symmetry energy and the nuclear equation of state: A Dynamical and Statistical model perspective
Constraints on the density dependence of the symmetry energy
Density Dependence of the Symmetry energy and the Equation of State of Isospin Asymmetric Nuclear Matter
