Nuclear Compression Index of Infinite Nuclear Matter at Finite Temperature

Details Nuclear Compression Index of Infinite Nuclear Matter at Finite Temperature Nuclear Compression Index of Infinite Nuclear Matter at Finite Temperature

Oct 2003

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2003aps..dnp.cd010h&link_type=abstract

American Physical Society, Division of Nuclear Physics Fall Meeting, October 30 - November 1, 2003, Tucson, Arizona, MEETING ID:

Physics

Nuclear Physics

Scientific paper

There is general agreement that the compression index (K) for symmetric nuclear matter at T=0 is about 230 MeV. Very little is known for K at T of several MeV. A study by Muller et. al.[1] using lattice techniques resulted in a sharp peak reaching 1460 MeV for T = 14 MeV. If this result is real, there are implications for core collapse supernovae and protoneutron stars. This paper compares the results from reference [1] with those from several other works and suggests applications to supernovae and protoneutron stars. [ 1 ] Muller, Koonin, Seki, and van Kolck. Phys. Rev. C, 61,044320 (2000)

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