Collective modes in light nuclei from first principles

Collective modes in light nuclei from first principles

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 w...

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Veröffentlicht in:Physical review letters 2013-12, Vol.111 (25), p.252501-252501, Article 252501
Hauptverfasser: Dytrych, T, Launey, K D, Draayer, J P, Maris, P, Vary, J P, Saule, E, Catalyurek, U, Sosonkina, M, Langr, D, Caprio, M A
Format: Artikel
Sprache:eng
Schlagworte:
Beryllium - chemistry
Helium - chemistry
Lithium - chemistry
Models, Chemical
Quantum Theory
Radioisotopes - chemistry
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Zusammenfassung: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.
ISSN:0031-9007
1079-7114
DOI:10.1103/PhysRevLett.111.252501