Search for highly excited states in 28Si

D. Montanari; S. Courtin; D. G. Jenkins; C. Diget; N. Yavuzkanat; R. Neveling; J. P. Mira; F. Nemulodi; F. D. Smit; I. Usman; P. Papka; J. A. Swartz; J. J. Van Zyl; N. Orce

doi:10.1088/1742-6596/863/1/012051

Search for highly excited states in ²⁸Si

D. Montanari^*, S. Courtin, D. G. Jenkins, C. Diget, N. Yavuzkanat, R. Neveling, J. P. Mira, F. Nemulodi, F. D. Smit, I. Usman, P. Papka, J. A. Swartz, J. J. Van Zyl, N. Orce

^*Corresponding author for this work

Physics

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

Abstract

The theoretical and experimental determination of superdeformed states in nuclei in the mass region A≤40 has been since a long time one of the major challenges of nuclear structure studies. Despite the considerable experimental and theoretical work dedicated to this topic, up to now superdeformed bands have been found in only two nuclei, ³⁶Ar and ⁴⁰Ca. While the experimental signature of the superdeformed nature of those states is irrefutable, their theoretical interpretation is still uncertain. In particular, it is not clear whether clusterisation is responsible of the onset of superdeformation. For this reason, we wanted to investigate an even lighter system, ²⁸Si, where a number of theoretical calculations predict the presence of superdeformation as an effect of the cluster structure of the nucleus.

Original language	English
Article number	012051
Pages (from-to)	1-5
Number of pages	5
Journal	Journal of Physics: Conference Series
Volume	863
Issue number	1
DOIs	https://doi.org/10.1088/1742-6596/863/1/012051
Publication status	Published - 4 Jul 2017

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10.1088/1742-6596/863/1/012051Licence: CC BY

Montanari_2017_J._Phys.__Conf._Ser._863_012051
© 2017, The Author(s).
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title = "Search for highly excited states in 28Si",

abstract = "The theoretical and experimental determination of superdeformed states in nuclei in the mass region A≤40 has been since a long time one of the major challenges of nuclear structure studies. Despite the considerable experimental and theoretical work dedicated to this topic, up to now superdeformed bands have been found in only two nuclei, 36Ar and 40Ca. While the experimental signature of the superdeformed nature of those states is irrefutable, their theoretical interpretation is still uncertain. In particular, it is not clear whether clusterisation is responsible of the onset of superdeformation. For this reason, we wanted to investigate an even lighter system, 28Si, where a number of theoretical calculations predict the presence of superdeformation as an effect of the cluster structure of the nucleus.",

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T1 - Search for highly excited states in 28Si

AU - Montanari, D.

AU - Courtin, S.

AU - Jenkins, D. G.

AU - Diget, C.

AU - Yavuzkanat, N.

AU - Neveling, R.

AU - Mira, J. P.

AU - Nemulodi, F.

AU - Smit, F. D.

AU - Usman, I.

AU - Papka, P.

AU - Swartz, J. A.

AU - Van Zyl, J. J.

AU - Orce, N.

PY - 2017/7/4

Y1 - 2017/7/4

N2 - The theoretical and experimental determination of superdeformed states in nuclei in the mass region A≤40 has been since a long time one of the major challenges of nuclear structure studies. Despite the considerable experimental and theoretical work dedicated to this topic, up to now superdeformed bands have been found in only two nuclei, 36Ar and 40Ca. While the experimental signature of the superdeformed nature of those states is irrefutable, their theoretical interpretation is still uncertain. In particular, it is not clear whether clusterisation is responsible of the onset of superdeformation. For this reason, we wanted to investigate an even lighter system, 28Si, where a number of theoretical calculations predict the presence of superdeformation as an effect of the cluster structure of the nucleus.

AB - The theoretical and experimental determination of superdeformed states in nuclei in the mass region A≤40 has been since a long time one of the major challenges of nuclear structure studies. Despite the considerable experimental and theoretical work dedicated to this topic, up to now superdeformed bands have been found in only two nuclei, 36Ar and 40Ca. While the experimental signature of the superdeformed nature of those states is irrefutable, their theoretical interpretation is still uncertain. In particular, it is not clear whether clusterisation is responsible of the onset of superdeformation. For this reason, we wanted to investigate an even lighter system, 28Si, where a number of theoretical calculations predict the presence of superdeformation as an effect of the cluster structure of the nucleus.

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JO - Journal of Physics: Conference Series

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ER -

Search for highly excited states in ²⁸Si

Abstract

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Nuclear Physics Consolidated Grant

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Search for highly excited states in 28Si

Abstract

Bibliographical note

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Nuclear Physics Consolidated Grant

Cite this

Search for highly excited states in ²⁸Si