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Incompressibility in finite nuclei and nuclear matter

Abstract:
The incompressibility (compression modulus) K0 of infinite symmetric nuclear matter at saturation density has become one of the major constraints on mean-field models of nuclear many-body systems as well as of models of high density matter in astrophysical objects and heavy-ion collisions. It is usually extracted from data on the giant monopole resonance (GMR) or calculated using theoretical models. We present a comprehensive reanalysis of recent data on GMR energies in even-even 112-124Sn and 106,100-116Cd and earlier data on 58≤A≤208 nuclei. The incompressibility of finite nuclei KA is calculated from experimental GMR energies and expressed in terms of A-1/3 and the asymmetry parameter β=(N-Z)/A as a leptodermous expansion with volume, surface, isospin, and Coulomb coefficients Kvol, Ksurf, Kτ, and KCoul. Only data consistent with the scaling approximation, leading to a fast converging leptodermous expansion, with negligible higher-order-term contributions to KA, were used in the present analysis. Assuming that the volume coefficient Kvol is identified with K0, the KCoul=-(5.2±0.7) MeV and the contribution from the curvature term KcurvA-2/3 in the expansion is neglected, compelling evidence is found for K0 to be in the range 250
Publication status:
Published

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Publisher copy:
10.1103/PhysRevC.89.044316

Authors


Publisher:
American Physical Society
Journal:
PHYSICAL REVIEW C More from this journal
Volume:
89
Issue:
4
Publication date:
2014-04-17
DOI:
EISSN:
1089-490X
ISSN:
0556-2813


Language:
English
Pubs id:
pubs:465482
UUID:
uuid:1afb76be-66f1-4567-ad69-e9ec2f6ad356
Local pid:
pubs:465482
Source identifiers:
465482
Deposit date:
2014-07-04
ARK identifier:

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