The evolution of nuclear moments and charge radii approaching 100Sn
In this work, the electromagnetic properties of the tin atom and its nucleus are systematically investigated in order to test our description of complex many-body quantum systems, such as bound electrons in the atom, and the protons and neutrons within the nucleus. The main motivation of this thesis...
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2022
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ftcern:oai:cds.cern.ch:2799928 2024-09-15T18:41:39+00:00 The evolution of nuclear moments and charge radii approaching 100Sn Parnefjord Gustafsson, Fredik Olof Andre 2022-01-19T13:29:40Z http://cds.cern.ch/record/2799928 eng eng http://cds.cern.ch/record/2799928 CERN-THESIS-2021-258 oai:cds.cern.ch:2799928 Nuclear Physics - Experiment 2022 ftcern 2024-07-22T16:07:18Z In this work, the electromagnetic properties of the tin atom and its nucleus are systematically investigated in order to test our description of complex many-body quantum systems, such as bound electrons in the atom, and the protons and neutrons within the nucleus. The main motivation of this thesis is to investigate the evolution of nuclear electromagnetic properties (magnetic dipole moments, spin, electric quadrupole moments and charge radii) when neutrons are removed from the tin nucleus, towards 100Sn (N = Z = 50). This neutron-deficient nucleus (12 neutrons away from the lightest stable tin isotope) is expected to exhibit the extraordinarily rare property of having an equal number of protons and neutrons in doubly-magic (closed proton and neutron shell) configuration. Doubly-magic nuclei are more tightly bound than their neighbouring nuclei and provide valuable stepping stones for investigating the influence on nuclear structure properties when adding or removing nucleons (protons or neutrons). The tin isotopic chain is expected to have two doubly-magic nuclei, the neutron-deficient 100Sn (N = Z = 50) and neutron-rich 132Sn (N = 82, Z = 50). While the doubly-magic nature of 132Sn has been firmly established, the shell-closures at 100Sn have not yet been confirmed due to the low production yields of the neutron-deficient tin isotopes. Interestingly, measurements hint towards an increased softness to deformation when approaching 100Sn which questions the robustness of the shell closure. Additionally, the controversial level ordering of the two neutron shell model orbits above N = 50, labeled 2d5/2 and 1g7/2, further fuel the curiosity. Thanks to the highly sensitive Collinear Resonance Ionization Spectroscopy (CRIS) technique at ISOLDE-CERN, the above questions could be addressed in this work. Using the CRIS technique, laser spectroscopic measurements of the hyperfine structures and isotope shifts could be resolved in atoms containing tin isotopes artificially produced at ISOLDE, ranging from 124Sn down to ... Other/Unknown Material Cris Stepping Stones CERN Document Server (CDS) |
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Open Polar |
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CERN Document Server (CDS) |
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ftcern |
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English |
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Nuclear Physics - Experiment |
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Nuclear Physics - Experiment Parnefjord Gustafsson, Fredik Olof Andre The evolution of nuclear moments and charge radii approaching 100Sn |
| topic_facet |
Nuclear Physics - Experiment |
| description |
In this work, the electromagnetic properties of the tin atom and its nucleus are systematically investigated in order to test our description of complex many-body quantum systems, such as bound electrons in the atom, and the protons and neutrons within the nucleus. The main motivation of this thesis is to investigate the evolution of nuclear electromagnetic properties (magnetic dipole moments, spin, electric quadrupole moments and charge radii) when neutrons are removed from the tin nucleus, towards 100Sn (N = Z = 50). This neutron-deficient nucleus (12 neutrons away from the lightest stable tin isotope) is expected to exhibit the extraordinarily rare property of having an equal number of protons and neutrons in doubly-magic (closed proton and neutron shell) configuration. Doubly-magic nuclei are more tightly bound than their neighbouring nuclei and provide valuable stepping stones for investigating the influence on nuclear structure properties when adding or removing nucleons (protons or neutrons). The tin isotopic chain is expected to have two doubly-magic nuclei, the neutron-deficient 100Sn (N = Z = 50) and neutron-rich 132Sn (N = 82, Z = 50). While the doubly-magic nature of 132Sn has been firmly established, the shell-closures at 100Sn have not yet been confirmed due to the low production yields of the neutron-deficient tin isotopes. Interestingly, measurements hint towards an increased softness to deformation when approaching 100Sn which questions the robustness of the shell closure. Additionally, the controversial level ordering of the two neutron shell model orbits above N = 50, labeled 2d5/2 and 1g7/2, further fuel the curiosity. Thanks to the highly sensitive Collinear Resonance Ionization Spectroscopy (CRIS) technique at ISOLDE-CERN, the above questions could be addressed in this work. Using the CRIS technique, laser spectroscopic measurements of the hyperfine structures and isotope shifts could be resolved in atoms containing tin isotopes artificially produced at ISOLDE, ranging from 124Sn down to ... |
| author |
Parnefjord Gustafsson, Fredik Olof Andre |
| author_facet |
Parnefjord Gustafsson, Fredik Olof Andre |
| author_sort |
Parnefjord Gustafsson, Fredik Olof Andre |
| title |
The evolution of nuclear moments and charge radii approaching 100Sn |
| title_short |
The evolution of nuclear moments and charge radii approaching 100Sn |
| title_full |
The evolution of nuclear moments and charge radii approaching 100Sn |
| title_fullStr |
The evolution of nuclear moments and charge radii approaching 100Sn |
| title_full_unstemmed |
The evolution of nuclear moments and charge radii approaching 100Sn |
| title_sort |
evolution of nuclear moments and charge radii approaching 100sn |
| publishDate |
2022 |
| url |
http://cds.cern.ch/record/2799928 |
| genre |
Cris Stepping Stones |
| genre_facet |
Cris Stepping Stones |
| op_relation |
http://cds.cern.ch/record/2799928 CERN-THESIS-2021-258 oai:cds.cern.ch:2799928 |
| _version_ |
1810486048933806080 |