arXiv:1312.0969 Abstract | arXiv Analytics

arXiv:1312.0969 [nucl-th]Abstract References Reviews Resources

Collective Modes in Light Nuclei from First Principles

T. Dytrych, K. D. Launey, J. P. Draayer, P. Maris, J. P. Vary, E. Saule, U. Catalyurek, M. Sosonkina, D. Langr, M. A. Caprio

Published 2013-12-03Version 1

Results for ab initio no-core shell model calculations in a symmetry-adapted SU(3)-based coupling scheme demonstrate that collective modes in light nuclei emerge from first principles. The low-lying states of 6Li, 8Be, and 6He are shown to exhibit orderly patterns that favor spatial configurations with strong quadrupole deformation and complementary low intrinsic spin values, a picture that is consistent with the nuclear symplectic model. The results also suggest a pragmatic path forward to accommodate deformation-driven collective features in ab initio analyses when they dominate the nuclear landscape.

Comments: 5 pages 3 figures, accepted to Physical Review Letters

DOI: 10.1103/PhysRevLett.111.252501

Categories: nucl-th

Subjects: 21.60.Cs, 21.60.De, 21.60.Fw, 27.20.+n

Keywords: light nuclei, first principles, collective modes, initio no-core shell model calculations, complementary low intrinsic spin values

Tags: journal article

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