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Exploring the exotic: Experimental investigations far from stability

Markenroth, K. LU orcid (2001)
Abstract

The exploration of exotic nuclei is one of the most intriguing and fastest expanding fields in modern nuclear physics. In the extreme conditions of unsymmetric neutron-proton distributions and small binding energies many nuclear phenomena not encountered closer to stability have revealed themselves, often as a surprise to the nuclear physics community, the prime example being the development of halo structures as the binding energy diminishes. The research in this domain has introduced many new and unexpected phenomena of which a few examples are halo systems, intruder states, soft excitation modes and rare β-delayed particle decays. To comprehend the new features of the nuclear world that are revealed as the drip-lines are approached,... (More)

The exploration of exotic nuclei is one of the most intriguing and fastest expanding fields in modern nuclear physics. In the extreme conditions of unsymmetric neutron-proton distributions and small binding energies many nuclear phenomena not encountered closer to stability have revealed themselves, often as a surprise to the nuclear physics community, the prime example being the development of halo structures as the binding energy diminishes. The research in this domain has introduced many new and unexpected phenomena of which a few examples are halo systems, intruder states, soft excitation modes and rare β-delayed particle decays. To comprehend the new features of the nuclear world that are revealed as the drip-lines are approached, reliable and unambiguous experimental data are needed. The work in this thesis summarizes a number of experiments performed along two main lines. An interesting possibility when looking at nuclear structure is the comparisons of mirror nuclei, which in this region are situated on different driplines. Three measurements in this deal with studies of resonances in nitrogen isotopes that are unbound with respect to proton emission. These systems are interesting also as in the studies of proton decay and shell structures far from stability. To study halo systems, longitudinal momentum distributions and cross sections are measured in one-nucleon removal processes where the surviving fragment is detected. Three experiments of this type are reported in this thesis.

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Please use this url to cite or link to this publication:
author
publishing date
type
Thesis
publication status
published
keywords
N, C, B, Breakup reactions, Cross sections, Driplines, Elastic resonance scattering, Halo nuclei, Inbeam γ spectroscopy, Longitudinal momentum distributions, Projectile fragmentation, Resonances, Unbound nuclei
pages
149 pages
publisher
Chalmers University of Technology
external identifiers
  • scopus:17744403741
ISBN
91-7291-070-4
language
English
LU publication?
no
id
610fe06b-276f-45e5-bf2b-5810c868f099
date added to LUP
2017-03-06 22:52:44
date last changed
2022-01-30 18:47:06
@phdthesis{610fe06b-276f-45e5-bf2b-5810c868f099,
  abstract     = {{<p>The exploration of exotic nuclei is one of the most intriguing and fastest expanding fields in modern nuclear physics. In the extreme conditions of unsymmetric neutron-proton distributions and small binding energies many nuclear phenomena not encountered closer to stability have revealed themselves, often as a surprise to the nuclear physics community, the prime example being the development of halo structures as the binding energy diminishes. The research in this domain has introduced many new and unexpected phenomena of which a few examples are halo systems, intruder states, soft excitation modes and rare β-delayed particle decays. To comprehend the new features of the nuclear world that are revealed as the drip-lines are approached, reliable and unambiguous experimental data are needed. The work in this thesis summarizes a number of experiments performed along two main lines. An interesting possibility when looking at nuclear structure is the comparisons of mirror nuclei, which in this region are situated on different driplines. Three measurements in this deal with studies of resonances in nitrogen isotopes that are unbound with respect to proton emission. These systems are interesting also as in the studies of proton decay and shell structures far from stability. To study halo systems, longitudinal momentum distributions and cross sections are measured in one-nucleon removal processes where the surviving fragment is detected. Three experiments of this type are reported in this thesis.</p>}},
  author       = {{Markenroth, K.}},
  isbn         = {{91-7291-070-4}},
  keywords     = {{N; C; B; Breakup reactions; Cross sections; Driplines; Elastic resonance scattering; Halo nuclei; Inbeam γ spectroscopy; Longitudinal momentum distributions; Projectile fragmentation; Resonances; Unbound nuclei}},
  language     = {{eng}},
  publisher    = {{Chalmers University of Technology}},
  title        = {{Exploring the exotic: Experimental investigations far from stability}},
  year         = {{2001}},
}