A. Z. Mekjian, S. J. Lee, L. Zamick
Published 2005-02-01Version 1
The nuclear incompressibility $\kappa$ is investigated in asymmetric systems in a mean field model. The calculations are done at zero and finite temperatures and include surface, Coulomb and symmetry energy terms for several equations of state. Also considered is the behavior of the incompressibility at constant entropy $kappa_Q$ which is shown to have a very different behavior than the isothermal $kappa$. Namely, $kappa_Q$ decreases with increasing entropy while the isothermal $kappa$ increases with increasing $T$. A duality is found between the adiabatic $kappa_Q$ and the T=0 isothermal $kappa$. Analytic and also simple approximate expressions for $kappa$ are given.
Comments: 11 pages
Journal: Phys.Rev. C72 (2005) 044305
Sum rules and short-range correlations in nuclear matter at finite temperature
Nuclear Incompressibility at Finite Temperature and Entropy
Ferromagnetic instabilities in neutron matter at finite temperature with the Skyrme interaction
