Evidence for triangular D3h symmetry in C 12

Daniel Marin Lambarri; R. Bijker; M. Freer; M. Gai; Tz Kokalova; David Parker; C. Wheldon

doi:10.1103/PhysRevLett.113.012502

Evidence for triangular D3h symmetry in C 12

Daniel Marin Lambarri^*, R. Bijker, M. Freer, M. Gai, Tz Kokalova, David Parker, C. Wheldon

^*Corresponding author for this work

Physics and Astronomy

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Abstract

We report a measurement of a new high spin Jπ=5- state at 22.4(2) MeV in C12 which fits very well to the predicted (ground state) rotational band of an oblate equilateral triangular spinning top with a D3h symmetry characterized by the sequence 0+, 2+, 3-, 4±, 5- with almost degenerate 4+ and 4- (parity doublet) states. Such a D3h symmetry was observed in triatomic molecules, and it is observed here for the first time in nuclear physics. We discuss a classification of other rotation-vibration bands in C12 such as the (0+) Hoyle band and the (1-) bending mode band and suggest measurements in search of the predicted ("missing") states that may shed new light on clustering in C12 and light nuclei. In particular, the observation (or nonobservation) of the predicted ("missing") states in the Hoyle band will allow us to conclude the geometrical arrangement of the three alpha particles composing the Hoyle state at 7.654 MeV in C12.

Original language	English
Article number	012502
Journal	Physical Review Letters
Volume	113
Issue number	1
DOIs	https://doi.org/10.1103/PhysRevLett.113.012502
Publication status	Published - 30 Jun 2014

ASJC Scopus subject areas

General Physics and Astronomy

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10.1103/PhysRevLett.113.012502

Marín_Lámbarri _2014_PhysRevLett
Checked for eligibility: September 2014
Final published version, 485 KBLicence: None: All rights reserved

Birmingham Nuclear Physics Consolidated Grant
Freer, M., Evans, P., Jones, P., Wheldon, C. & Lazzeroni, C.
SCIENCE & TECHNOLOGY FACILITIES COUNCIL
1/08/11 → 31/07/14
Project: Research Councils

Cite this

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title = "Evidence for triangular D3h symmetry in C 12",

abstract = "We report a measurement of a new high spin Jπ=5- state at 22.4(2) MeV in C12 which fits very well to the predicted (ground state) rotational band of an oblate equilateral triangular spinning top with a D3h symmetry characterized by the sequence 0+, 2+, 3-, 4±, 5- with almost degenerate 4+ and 4- (parity doublet) states. Such a D3h symmetry was observed in triatomic molecules, and it is observed here for the first time in nuclear physics. We discuss a classification of other rotation-vibration bands in C12 such as the (0+) Hoyle band and the (1-) bending mode band and suggest measurements in search of the predicted ({"}missing{"}) states that may shed new light on clustering in C12 and light nuclei. In particular, the observation (or nonobservation) of the predicted ({"}missing{"}) states in the Hoyle band will allow us to conclude the geometrical arrangement of the three alpha particles composing the Hoyle state at 7.654 MeV in C12.",

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AU - Marin Lambarri, Daniel

AU - Bijker, R.

AU - Freer, M.

AU - Gai, M.

AU - Kokalova, Tz

AU - Parker, David

AU - Wheldon, C.

PY - 2014/6/30

Y1 - 2014/6/30

N2 - We report a measurement of a new high spin Jπ=5- state at 22.4(2) MeV in C12 which fits very well to the predicted (ground state) rotational band of an oblate equilateral triangular spinning top with a D3h symmetry characterized by the sequence 0+, 2+, 3-, 4±, 5- with almost degenerate 4+ and 4- (parity doublet) states. Such a D3h symmetry was observed in triatomic molecules, and it is observed here for the first time in nuclear physics. We discuss a classification of other rotation-vibration bands in C12 such as the (0+) Hoyle band and the (1-) bending mode band and suggest measurements in search of the predicted ("missing") states that may shed new light on clustering in C12 and light nuclei. In particular, the observation (or nonobservation) of the predicted ("missing") states in the Hoyle band will allow us to conclude the geometrical arrangement of the three alpha particles composing the Hoyle state at 7.654 MeV in C12.

AB - We report a measurement of a new high spin Jπ=5- state at 22.4(2) MeV in C12 which fits very well to the predicted (ground state) rotational band of an oblate equilateral triangular spinning top with a D3h symmetry characterized by the sequence 0+, 2+, 3-, 4±, 5- with almost degenerate 4+ and 4- (parity doublet) states. Such a D3h symmetry was observed in triatomic molecules, and it is observed here for the first time in nuclear physics. We discuss a classification of other rotation-vibration bands in C12 such as the (0+) Hoyle band and the (1-) bending mode band and suggest measurements in search of the predicted ("missing") states that may shed new light on clustering in C12 and light nuclei. In particular, the observation (or nonobservation) of the predicted ("missing") states in the Hoyle band will allow us to conclude the geometrical arrangement of the three alpha particles composing the Hoyle state at 7.654 MeV in C12.

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Evidence for triangular D3h symmetry in C 12

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Birmingham Nuclear Physics Consolidated Grant

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