Nuclear Incompressibility, the Asymmetry Term, and the MEM Effect

03:00 PM - 04:00 PM
Umesh Garg, Department of Physics, The University of Notre Dame, Indiana
Physics Division Seminar
Building 6008, Large Conference Room
Email: Alfredo Galindo-Uribarri
<p> The Nuclear Incompressibility parameter is one of three important components characterizing the nuclear equation of state. It has crucial bearing on diverse nuclear and astrophysical phenomena, including radii of neutron stars, strength of supernova collapse, emission of neutrinos in supernova explosions, and collective flow in medium- and high-energy nuclear collisions. In this talk I will review current status of the research on direct experimental determination of nuclear incompressibility via the compressional-mode giant resonances. In particular, recent measurements on a series of Sn and Cd isotopes have provided an "experimental" value for the asymmetry term of nuclear incompressibility. We also find that the GMR centroid energies of the in both Sn and Cd isotopes are significantly lower than the theoretical predictions, pointing to the possible role of superfluidity and the MEM (Mutual Enhancement of Magicity) Effect.</p> <p> Refreshments served at 2:40.</p>

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