D. Bucurescu, N. V. Zamfir
Published 2018-08-01Version 1
Nuclear level density at low excitation energies is proposed as an indicator of the first order phase transitions in nuclei. The new signature, a maximum value of the level density at the critical point, appears to be sensitive to the detailed way the phase transition takes place in different nuclear regions: it is consistent with phase coexistence in the N=90 region, and with a rapid crossing of the two phases, without their coexistence/mixing at the critical point in the N=60 region, respectively. Candidates for critical point nuclei are proposed for odd-mass and odd-odd nuclei, using correlations between relative excitation energies, and their ratios, for structures (bands) based on unique-parity orbitals.
Comments: This manuscript has been published in Phys. Rev. C 98, 024301 (2018). This is the preprint version
Journal: Phys. Rev. C 98, 024301 (2018)
Shape phase transitions in odd-A Zr isotopes
Transport coefficients of the quark-gluon plasma at the critical point and across the first-order line
Finite-size behavior near the critical point of QCD phase-transition
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