Directly probing existence of α-cluster structure in 20Ne by relativistic heavy-ion collisions
Abstract
Can relativistic heavy-ion collisions only probe the global shape of colliding nuclei, or their detailed internal structure as well? Taking 20Ne as an example, we attempt to directly probe its internal α-cluster structure, by comparing experimentally measured observables in collisions at relativistic energies from density distributions of 20Ne with and without α-cluster structure. Since the two density distributions give the same nucleus size and deformation, they lead to similar mid-rapidity observables. However, the α-cluster structure may considerably reduce the free spectator nucleon yield and enhance the spectator light nuclei yield, as a result of more compact initial phase-space distribution of nucleons inside α clusters. We propose to measure the scaled yield ratio of free spectator neutrons to charged particles with mass-to-charge ratio A/Z = 3, 3/2, and 2 in ultra-central 20Ne+20Ne collisions, which is found to be reduced by about 25\% at sNN = 7 TeV and about 20\% at sNN = 200 GeV with α-cluster structure in 20Ne. This scaled yield ratio thus serves as a robust and direct probe of the existence of α-cluster structure in 20Ne free from the uncertainty of mid-rapidity dynamics.
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