The α-particle condensation in diluted 16O at finite temperature

Abstract

We investigate the effect of temperature on α-particle clustering in the diluted nucleus 16O using the multi-constrained finite-temperature relativistic Hartree-Bogoliubov model with the DD-ME2 interaction. At a critical density the nucleus undergoes a Mott-like transition from a homogeneous to a localised configuration characterised by α-particle clustering and the emergence of a finite non-axial octupole deformation. We study the interplay between the onset of localisation under nuclear dilution and the suppression of deformation and α-particle clustering due to increasing temperature. Investigating the temperature-density plane, our findings indicate that temperature delays the formation of non-axial octupole deformation and α-particle clustering in dilute environments. Following the transition from homogeneous to clustered configurations, the non-axial octupole deformation continues to increase with further dilution of the system and becomes nearly independent of temperature. We found that α-particle clusters appear at temperatures up to T = 4.10 MeV and at a corresponding normalised density Mott/0 ≈ 0.09.

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