Wigner SU(4) symmetry, clustering, and the spectrum of 12 C

Shihang Shen; Timo A. Lähde; Dean Lee; Ulf G. Meißner

doi:10.1140/epja/s10050-021-00586-6

Wigner SU(4) symmetry, clustering, and the spectrum of ¹² C

Shihang Shen^*
, Timo A. Lähde
, Dean Lee
, Ulf G. Meißner

^*Corresponding author for this work

Jülich Research Centre
Michigan State University
University of Bonn
Ivane Javakhishvili Tbilisi State University

Research output: Contribution to journal › Article › peer-review

15 Scopus citations

Abstract

We present lattice calculations of the low-lying spectrum of ¹²C using a simple nucleon–nucleon interaction that is independent of spin and isospin and therefore invariant under Wigner’s SU(4) symmetry. We find strong signals for all excited states up to ∼ 15 MeV above the ground state, and explore the structure of each state using a large variety of α cluster and harmonic oscillator trial states, projected onto given irreducible representations of the cubic group. We are able to verify earlier findings for the α clustering in the Hoyle state and the second 2 ⁺ state of ¹²C. The success of these calculations to describe the full low-lying energy spectrum using spin-independent interactions suggest that either the spin-orbit interactions are somewhat weak in the ¹²C system, or the effects of α clustering are diminishing their influence. This is in agreement with previous findings from ab initio shell model calculations.

Original language	English
Article number	276
Journal	European Physical Journal A
Volume	57
Issue number	9
DOIs	https://doi.org/10.1140/epja/s10050-021-00586-6
State	Published - Sep 2021
Externally published	Yes

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title = "Wigner SU(4) symmetry, clustering, and the spectrum of 12 C",

abstract = "We present lattice calculations of the low-lying spectrum of 12C using a simple nucleon–nucleon interaction that is independent of spin and isospin and therefore invariant under Wigner{\textquoteright}s SU(4) symmetry. We find strong signals for all excited states up to ∼ 15 MeV above the ground state, and explore the structure of each state using a large variety of α cluster and harmonic oscillator trial states, projected onto given irreducible representations of the cubic group. We are able to verify earlier findings for the α clustering in the Hoyle state and the second 2 + state of 12C. The success of these calculations to describe the full low-lying energy spectrum using spin-independent interactions suggest that either the spin-orbit interactions are somewhat weak in the 12C system, or the effects of α clustering are diminishing their influence. This is in agreement with previous findings from ab initio shell model calculations.",

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AU - Shen, Shihang

AU - Lähde, Timo A.

AU - Lee, Dean

AU - Meißner, Ulf G.

PY - 2021/9

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N2 - We present lattice calculations of the low-lying spectrum of 12C using a simple nucleon–nucleon interaction that is independent of spin and isospin and therefore invariant under Wigner’s SU(4) symmetry. We find strong signals for all excited states up to ∼ 15 MeV above the ground state, and explore the structure of each state using a large variety of α cluster and harmonic oscillator trial states, projected onto given irreducible representations of the cubic group. We are able to verify earlier findings for the α clustering in the Hoyle state and the second 2 + state of 12C. The success of these calculations to describe the full low-lying energy spectrum using spin-independent interactions suggest that either the spin-orbit interactions are somewhat weak in the 12C system, or the effects of α clustering are diminishing their influence. This is in agreement with previous findings from ab initio shell model calculations.

AB - We present lattice calculations of the low-lying spectrum of 12C using a simple nucleon–nucleon interaction that is independent of spin and isospin and therefore invariant under Wigner’s SU(4) symmetry. We find strong signals for all excited states up to ∼ 15 MeV above the ground state, and explore the structure of each state using a large variety of α cluster and harmonic oscillator trial states, projected onto given irreducible representations of the cubic group. We are able to verify earlier findings for the α clustering in the Hoyle state and the second 2 + state of 12C. The success of these calculations to describe the full low-lying energy spectrum using spin-independent interactions suggest that either the spin-orbit interactions are somewhat weak in the 12C system, or the effects of α clustering are diminishing their influence. This is in agreement with previous findings from ab initio shell model calculations.

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DO - 10.1140/epja/s10050-021-00586-6

M3 - 文章

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VL - 57

JO - European Physical Journal A

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ER -

Wigner SU(4) symmetry, clustering, and the spectrum of ¹² C

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