Alpha-Clustering in Nuclei and Its Impact on Nuclear Symmetry Energy

Abstract

Nuclear symmetry energy is a fundamental quantity currently under intense investigation in both nuclear physics and astrophysics. The softness or stiffness of symmetry energy is still under debate and the extraction of symmetry energy from neutron skin thickness R skin remains a challenge. Parity-violating measurements PREX and CREX provide important opportunities for constraining R skin in 208Pb and 48Ca. We investigate the occurrence of α-cluster at the surface of nuclei and its impact on the extraction of symmetry energy from R skin. Our result indicates that the α-clustering probability in 208Pb is small and the extracted density slope of symmetry energy L is almost unaffected. In contrast, the α-clustering probability in 48Ca is sizeable and the corresponding correction to L should be taken into account. This correction progressively increases with the α-clustering probability, leading to a modification of the L-R skin correlation, a fact may have important implications in constraining nuclear symmetry energy.