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Ab initio multi-shell valence-space Hamiltonians and the island of inversion

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arxiv 2004.12969 v2 pith:QV7QIT7E submitted 2020-04-27 nucl-th

Ab initio multi-shell valence-space Hamiltonians and the island of inversion

classification nucl-th
keywords hamiltoniansinitiovalence-spaceexcitationgroundisotopesnucleioxygen
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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In the shell-model framework, valence-space Hamiltonians connecting multiple major-oscillator shells are of key interest for investigating the physics of neutron-rich nuclei, which have been the subject of intense experimental activity for decades. Here we present an extension of the ab initio valence-space in-medium similarity renormalization group which allows the derivation of such Hamiltonians nonperturbatively. Starting from initial two- and three-nucleon forces from chiral effective field theory, we then calculate properties of nuclei in the important island-of-inversion region above oxygen, so far unexplored with ab initio methods. Our results in the neon and magnesium isotopes indicate the importance of neutron excitation from the $sd$ to $pf$ shells and ground states dominated by intruder configurations around $N=20$, consistent with the conclusions from phenomenological studies. We also benchmark the excitation spectrum of $^{16}$O with coupled-cluster theory, finding generally good agreement, and discuss implications for ground state energies and charge radii in oxygen and calcium isotopes. Finally we outline the proper procedure for treating the long-standing issue of center-of-mass contamination, and show that with a particular choice of valence space, these spurious states can be removed successfully.

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