C. J. Horowitz, E. F. Brown, Y. Kim, W. G. Lynch, R. Michaels, A. Ono, J. Piekarewicz, M. B. Tsang, H. H. Wolter
Published 2014-01-23Version 1
The symmetry energy describes how the energy of nuclear matter rises as one goes away from equal numbers of neutrons and protons. This is very important to describe neutron rich matter in astrophysics. This article reviews our knowledge of the symmetry energy from theoretical calculations, nuclear structure measurements, heavy ion collisions, and astronomical observations. We then present a roadmap to make progress in areas of relevance to the symmetry energy that promotes collaboration between the astrophysics and the nuclear physics communities.
Comments: 19 pages, results from first International Collaborations in Nuclear Theory (ICNT) program at NSCL/FRIB, submitted to J. Phys G
Journal: J. Phys. G: Nucl. Part. Phys. 41 (2014) 093001
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