Y. Funaki, T. Yamada, H. Horiuchi, G. Roepke, P. Schuck, A. Tohsaki
Published 2008-02-22Version 1
In order to explore the 4 \alpha-particle condensate state in 16O, we solve a full four-body equation of motion based on the 4 \alpha OCM (Orthogonality Condition Model) in a large 4 \alpha model space spanned by Gaussian basis functions. A full spectrum up to the 0_6^+ state is reproduced consistently with the lowest six 0^+ states of the experimental spectrum. The 0^+_6 state is obtained at about 2 MeV above the 4 \alpha breakup threshold and has a dilute density structure, with a radius of about 5 fm. The state has an appreciably large \alpha condensate fraction of 61 %, and a large component of \alpha+12C(0_2^+) configuration, both features being reliable evidence for this state to be of 4 \alpha condensate nature.
Comments: 4 pages, 3 figures and 1 table
Journal: Phys.Rev.Lett.101:082502,2008
Alpha cluster structures and monopole excitations in $^{13}$C
$α+α+t$ cluster structures and Hoyle-analogue states in $^{11}$B
Alpha-particle condensation in nuclei
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