Abstract
The anti-bubble effect of the quadrupole deformation in the light nuclei is investigated by applying the relativistic mean-field (RMF) plus state dependent BCS approach. We perform a systematic study of N = 14 isotonic chain to understand the influence of deformation on the occupancy and depletion fraction (D.F. = (ρmax - ρc)/ρmax, where ρmax and ρc are maximum and central densities, respectively). The quenching effect of deformation is found very predominant in light nuclei. In view of the fact that apart from deformation, temperature is also expected to hinder or rather completely wash out the bubble effect, we investigate the interesting role of deformation and temperature together in the quenching of proton bubble in the well deformed 24Ne and 32Ar.
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