Nuclear Structure and Exotic Decays; Doubly-Magic 56Ni and Semi-Magic 58Ni

Emma Johansson

Nuclear Structure and Exotic Decays; Doubly-Magic 56Ni and Semi-Magic 58Ni

Emma Johansson

Research output: Thesis › Doctoral Thesis (compilation)

Abstract

The nuclear structure of two nuclei, 56Ni and 58Ni, has been studied using fusion-evaporation
reaction experiments. The experiments were performed at the Lawrence
Berkeley and Argonne National Laboratories in the U.S.A.

The number of known spherical and deformed states in 56Ni has been
significantly extended. One case of prompt proton emission from a
well-deformed excited state into the ground state of 55Co was established. The spherical excited states were interpreted within the
spherical shell model, revealing a good agreement between theory and
experiment, with one notable exception for the yrast and yrare 8+ states. The
deformed states were interpreted using Cranked Nilsson-Strutinsky
calculations, again with very accurate results.

A similar investigation was performed for 58Ni, resulting in one of the
most extensive level schemes known for nuclei. High-spin states including
several rotational bands were found, and a significant number of
spherical and normally deformed states were also discovered. The rotational
bands were interpreted through Cranked Nilsson-Strutinsky calculations,
which allowed the configurations of the bands to be determined. The
normally deformed states of 58Ni were investigated with spherical
shell-model calculations, using two different interactions. The
results are in general satisfactory. The results indicate, however,
that further improvements of the theoretical calculations demands an
increase of the number of
subshells, allowed in the effective interactions.
A total of 12 prompt proton decays and two prompt alpha decays were
discovered in 58Ni. This is the
highest number of known particle decays of this type for any nucleus,
to date. New aspects of the proton decays have been observed, for
instance, two cases of in-band decays and two levels which decay with
competing proton, alpha, and gamma branches.

Original language	English
Qualification	Doctor
Awarding Institution
Supervisors/Advisors	Rudolph, Dirk, Supervisor
Award date	2009 Jan 23
ISBN (Print)	978-91-628-7679-1
Publication status	Published - 2009

Bibliographical note

Defence details

Date: 2009-01-23
Time: 13:15
Place: Sal B, Fysiska instutionen

External reviewer(s)

Name: Bruce, Alison
Title: Professor
Affiliation: University of Brighton, Brighton, U.K.

---

Subject classification (UKÄ)

Subatomic Physics

Free keywords

Doubly magic
semi magic
56Ni
58Ni
high-spin states
fusion-evaporation reactions
cranked Nilsson-Strutinsky calculations
shell-model calculations
prompt proton decay
prompt alpha decay

2 Article
1 Paper in conference proceeding

Prompt Proton Decay and Deformed Bands in 56Ni
Johansson, E., Rudolph, D., Andersson, L.-L., Torres, D. A., Ragnarsson, I., Andreoiu, C., Baktash, C., Carpenter, M. P., Charity, R. J., Chiara, C. J., Ekman, J., Fahlander, C., Hoel, C., Pechenaya, O. L., Reviol, W., du Rietz, R., Sarantites, D. G., Seweryniak, D., Sobotka, L. G. & Yu, C. H. & 1 others, Zhu, S., 2008, In: Physical Review C (Nuclear Physics). 77, 6, 064316.
Research output: Contribution to journal › Article › peer-review
Prompt Proton Decay in the Vicinity of 56Ni
Johansson, E., Rudolph, D., Andersson, L.-L., Torres, D. A., Carpenter, M. P., Charity, R. J., Chiara, C. J., Ekman, J., Fahlander, C., Hoel, C., Pechenaya, O. L., Reviol, W., du Rietz, R., Sarantites, D. G., Seweryniak, D., Sobotka, L. G. & Zhu, S., 2007, Proton Emitting Nuclei and Related Topics. American Institute of Physics (AIP), Vol. 961. p. 41-46
Research output: Chapter in Book/Report/Conference proceeding › Paper in conference proceeding › peer-review
Gamma-ray Spectroscopy of the Doubly Magic Nucleus 56Ni
Johansson, E., Rudolph, D., Ekman, J., Fahlander, C., Andreoiu, C., Bentley, M. A., Carpenter, M., Charity, R., Clark, R., Fallon, P., Janssens, R., Kondev, F., Khoo, T., Lauritsen, T., Macchiavelli, A., Reviol, W., Sarantites, D., Seweryniak, D., Svensson, C. & Williams, S., 2006, In: European Physical Journal A. Hadrons and Nuclei. 27, 2, p. 157-165
Research output: Contribution to journal › Article › peer-review

1 Finished

Nuclear Structure and Exotic Decays: Doubly-magic 56Ni and Semi-magic 58Ni
Johansson, E. (Research student), Rudolph, D. (Supervisor) & Fahlander, C. (Assistant supervisor)
2004/04/01 → 2009/01/31
Project: Dissertation

Cite this

@phdthesis{bc06a528ff1b44fd8ac11155e500f4c8,

title = "Nuclear Structure and Exotic Decays; Doubly-Magic 56Ni and Semi-Magic 58Ni",

abstract = "The nuclear structure of two nuclei, 56Ni and 58Ni, has been studied using fusion-evaporation reaction experiments. The experiments were performed at the Lawrence Berkeley and Argonne National Laboratories in the U.S.A. The number of known spherical and deformed states in 56Ni has been significantly extended. One case of prompt proton emission from a well-deformed excited state into the ground state of 55Co was established. The spherical excited states were interpreted within the spherical shell model, revealing a good agreement between theory and experiment, with one notable exception for the yrast and yrare 8+ states. The deformed states were interpreted using Cranked Nilsson-Strutinsky calculations, again with very accurate results. A similar investigation was performed for 58Ni, resulting in one of the most extensive level schemes known for nuclei. High-spin states including several rotational bands were found, and a significant number of spherical and normally deformed states were also discovered. The rotational bands were interpreted through Cranked Nilsson-Strutinsky calculations, which allowed the configurations of the bands to be determined. The normally deformed states of 58Ni were investigated with spherical shell-model calculations, using two different interactions. The results are in general satisfactory. The results indicate, however, that further improvements of the theoretical calculations demands an increase of the number of subshells, allowed in the effective interactions. A total of 12 prompt proton decays and two prompt alpha decays were discovered in 58Ni. This is the highest number of known particle decays of this type for any nucleus, to date. New aspects of the proton decays have been observed, for instance, two cases of in-band decays and two levels which decay with competing proton, alpha, and gamma branches.",

keywords = "Doubly magic, semi magic, 56Ni, 58Ni, high-spin states, fusion-evaporation reactions, cranked Nilsson-Strutinsky calculations, shell-model calculations, prompt proton decay, prompt alpha decay",

author = "Emma Johansson",

note = "Defence details Date: 2009-01-23 Time: 13:15 Place: Sal B, Fysiska instutionen External reviewer(s) Name: Bruce, Alison Title: Professor Affiliation: University of Brighton, Brighton, U.K. ---",

year = "2009",

language = "English",

isbn = "978-91-628-7679-1",

type = "Doctoral Thesis (compilation)",

}

TY - THES

T1 - Nuclear Structure and Exotic Decays; Doubly-Magic 56Ni and Semi-Magic 58Ni

AU - Johansson, Emma

N1 - Defence details Date: 2009-01-23 Time: 13:15 Place: Sal B, Fysiska instutionen External reviewer(s) Name: Bruce, Alison Title: Professor Affiliation: University of Brighton, Brighton, U.K. ---

PY - 2009

Y1 - 2009

N2 - The nuclear structure of two nuclei, 56Ni and 58Ni, has been studied using fusion-evaporation reaction experiments. The experiments were performed at the Lawrence Berkeley and Argonne National Laboratories in the U.S.A. The number of known spherical and deformed states in 56Ni has been significantly extended. One case of prompt proton emission from a well-deformed excited state into the ground state of 55Co was established. The spherical excited states were interpreted within the spherical shell model, revealing a good agreement between theory and experiment, with one notable exception for the yrast and yrare 8+ states. The deformed states were interpreted using Cranked Nilsson-Strutinsky calculations, again with very accurate results. A similar investigation was performed for 58Ni, resulting in one of the most extensive level schemes known for nuclei. High-spin states including several rotational bands were found, and a significant number of spherical and normally deformed states were also discovered. The rotational bands were interpreted through Cranked Nilsson-Strutinsky calculations, which allowed the configurations of the bands to be determined. The normally deformed states of 58Ni were investigated with spherical shell-model calculations, using two different interactions. The results are in general satisfactory. The results indicate, however, that further improvements of the theoretical calculations demands an increase of the number of subshells, allowed in the effective interactions. A total of 12 prompt proton decays and two prompt alpha decays were discovered in 58Ni. This is the highest number of known particle decays of this type for any nucleus, to date. New aspects of the proton decays have been observed, for instance, two cases of in-band decays and two levels which decay with competing proton, alpha, and gamma branches.

AB - The nuclear structure of two nuclei, 56Ni and 58Ni, has been studied using fusion-evaporation reaction experiments. The experiments were performed at the Lawrence Berkeley and Argonne National Laboratories in the U.S.A. The number of known spherical and deformed states in 56Ni has been significantly extended. One case of prompt proton emission from a well-deformed excited state into the ground state of 55Co was established. The spherical excited states were interpreted within the spherical shell model, revealing a good agreement between theory and experiment, with one notable exception for the yrast and yrare 8+ states. The deformed states were interpreted using Cranked Nilsson-Strutinsky calculations, again with very accurate results. A similar investigation was performed for 58Ni, resulting in one of the most extensive level schemes known for nuclei. High-spin states including several rotational bands were found, and a significant number of spherical and normally deformed states were also discovered. The rotational bands were interpreted through Cranked Nilsson-Strutinsky calculations, which allowed the configurations of the bands to be determined. The normally deformed states of 58Ni were investigated with spherical shell-model calculations, using two different interactions. The results are in general satisfactory. The results indicate, however, that further improvements of the theoretical calculations demands an increase of the number of subshells, allowed in the effective interactions. A total of 12 prompt proton decays and two prompt alpha decays were discovered in 58Ni. This is the highest number of known particle decays of this type for any nucleus, to date. New aspects of the proton decays have been observed, for instance, two cases of in-band decays and two levels which decay with competing proton, alpha, and gamma branches.

KW - Doubly magic

KW - semi magic

KW - 56Ni

KW - 58Ni

KW - high-spin states

KW - fusion-evaporation reactions

KW - cranked Nilsson-Strutinsky calculations

KW - shell-model calculations

KW - prompt proton decay

KW - prompt alpha decay

M3 - Doctoral Thesis (compilation)

SN - 978-91-628-7679-1

ER -

Nuclear Structure and Exotic Decays; Doubly-Magic 56Ni and Semi-Magic 58Ni

Abstract

Bibliographical note

Subject classification (UKÄ)

Free keywords

Fingerprint

Research output

Prompt Proton Decay and Deformed Bands in 56Ni

Prompt Proton Decay in the Vicinity of 56Ni

Gamma-ray Spectroscopy of the Doubly Magic Nucleus 56Ni

Projects

Nuclear Structure and Exotic Decays: Doubly-magic 56Ni and Semi-magic 58Ni

Cite this