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Shell-model study of boron, carbon, nitrogen and oxygen isotopes based on monopole-based-universal interaction

Published 25 Sep 2012 in nucl-th | (1209.5587v1)

Abstract: We study boron, carbon, nitrogen and oxygen isotopes with a newly constructed shell-model Hamiltonian developed from monopole-based-universal interaction ($V_{MU}$). The present Hamiltonian can reproduce well the ground-state energies, energy levels, electric quadrupole properties and spin properties of these nuclei in full psd model space including $(0-3)\hbar\omega$ excitations. Especially, it correctly describes the drip lines of carbon and oxygen isotopes and the spins of the ground states of ${10}$B and ${18}$N while some former interactions such as WBP and WBT fail. We point out that the inclusion of $2\hbar\omega$ excitations is important in reproducing some of these properties. In the present $(0+2)\hbar\omega$ calculations small but constant E2 effective charges appear to work quite well. As the inclusion of the $2\hbar\omega$ model space makes rather minor change, this seems to be related to the smallness of ${4}$He core. Similarly, the spin g factors are very close to free values. The applicability of tensor and spin-orbit forces in free space, which are taken in the present Hamiltonian, is examined in shell model calculations.

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