Characterizing the Neutron Skin of 48Ca Through Collective Flow at the CERN Large Hadron Collider
Abstract
The recently developed ``imaging-by-smashing" technique has emerged as a powerful approach to connect final-state collective flow phenomena in ultra-relativistic nuclear collisions with the intrinsic structure of the colliding nuclei. While most efforts have focused on constraining nuclear shape properties such as deformation and triaxiality, less attention has been given to the neutron skin, primarily in heavy nuclei such as 208Pb. In this work, a novel study of the neutron-skin thickness in 48Ca is presented, based on comparative analyses of 48Ca+48Ca and 40Ca+40Ca collisions at s NN=5.02 TeV. Simulations within the AMPT framework are employed to investigate the impact of varying neutron-skin thicknesses rnp for 48Ca on collective flow observables, including anisotropic flow coefficients and mean transverse momentum ([p T]) fluctuations. The triangular flow v3, quadrangular flow v4, as well as the variance and skewness of [p T] fluctuations, display notable sensitivity to rnp. These findings indicate that calcium-isotope runs at the LHC could provide an independent and complementary approach to constraining rnp, with the potential to help resolve the current tension between PREX and CREX measurements.
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