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Collinear Resonance Ionization Spectroscopy of Neutron-Rich Indium Isotopes
Barnes and Noble
Collinear Resonance Ionization Spectroscopy of Neutron-Rich Indium Isotopes
Current price: $109.99
Barnes and Noble
Collinear Resonance Ionization Spectroscopy of Neutron-Rich Indium Isotopes
Current price: $109.99
Size: Hardcover
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This thesis describes the application of the collinear resonance laser spectroscopy to sensitively measure the electromagnetic nuclear observables of the neutron-rich indium isotopes
115-131
In. This entailed a systematic study of the efficiency of resonant ionization schemes to extract the hyperfine structure of the isotopes, the atomic charge exchange process and benchmarking of modern atomic calculations with a laser ablation ion source.
This allowed determination of the root-mean-square nuclear charge radii, nuclear magnetic dipole moments, nuclear electric quadrupole moments and nuclear spins of the
113-131
In isotopes with high accuracy.
With a proton hole in the Z = 50 nuclear shell closure of tin and several nuclear isomer states, these measurements of the indium (Z = 49) isotope chain provided an efficient probe of the evolution of nuclear structure properties towards and at the doubly-magic nuclear shell closure of
132
Sn (N = 82) - revealing unpredicted changes.
115-131
In. This entailed a systematic study of the efficiency of resonant ionization schemes to extract the hyperfine structure of the isotopes, the atomic charge exchange process and benchmarking of modern atomic calculations with a laser ablation ion source.
This allowed determination of the root-mean-square nuclear charge radii, nuclear magnetic dipole moments, nuclear electric quadrupole moments and nuclear spins of the
113-131
In isotopes with high accuracy.
With a proton hole in the Z = 50 nuclear shell closure of tin and several nuclear isomer states, these measurements of the indium (Z = 49) isotope chain provided an efficient probe of the evolution of nuclear structure properties towards and at the doubly-magic nuclear shell closure of
132
Sn (N = 82) - revealing unpredicted changes.
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