Extending and refining the nuclear mass surface with ISOLTRAP and MISTRAL

Through the nuclear binding energy the atomic mass gives us important information about nuclear structure. Viewing the ensemble of mass data over the nuclear chart, we can examine the hills and valleys that form this surface and make hypotheses about the effects of certain nuclear configurations. To...

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Detalles Bibliográficos
Autores principales: Lunney, M D, Bollen, G
Lenguaje:eng
Publicado: 2000
Materias:
Nuclear Physics - Experiment
Acceso en línea:https://dx.doi.org/10.1023/A:1012698824893
http://cds.cern.ch/record/536819
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author Lunney, M D
Bollen, G
author_facet Lunney, M D
Bollen, G
author_sort Lunney, M D
collection CERN
description Through the nuclear binding energy the atomic mass gives us important information about nuclear structure. Viewing the ensemble of mass data over the nuclear chart, we can examine the hills and valleys that form this surface and make hypotheses about the effects of certain nuclear configurations. To unveil these effects, mass measurements of very high precision (10$^{-6}$) are required. Two experiments at ISOLDE pursue this effort of nuclear cartography the tandem Penning trap spectrometer ISOLTRAP and the radiofrequency transmission spectrometer MISTRAL. Between them, the masses of almost 150 nuclides have been measured from stable isotopes to those with half-lives as short as 30 ms. Both experiments rely on good optical properties of a low energy ion beam and are thus well suited to the ISOLDE facility. (30 refs).
id cern-536819
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2000
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spelling cern-5368192019-09-30T06:29:59Zdoi:10.1023/A:1012698824893http://cds.cern.ch/record/536819engLunney, M DBollen, GExtending and refining the nuclear mass surface with ISOLTRAP and MISTRALNuclear Physics - ExperimentThrough the nuclear binding energy the atomic mass gives us important information about nuclear structure. Viewing the ensemble of mass data over the nuclear chart, we can examine the hills and valleys that form this surface and make hypotheses about the effects of certain nuclear configurations. To unveil these effects, mass measurements of very high precision (10$^{-6}$) are required. Two experiments at ISOLDE pursue this effort of nuclear cartography the tandem Penning trap spectrometer ISOLTRAP and the radiofrequency transmission spectrometer MISTRAL. Between them, the masses of almost 150 nuclides have been measured from stable isotopes to those with half-lives as short as 30 ms. Both experiments rely on good optical properties of a low energy ion beam and are thus well suited to the ISOLDE facility. (30 refs).oai:cds.cern.ch:5368192000
spellingShingle Nuclear Physics - Experiment
Lunney, M D
Bollen, G
Extending and refining the nuclear mass surface with ISOLTRAP and MISTRAL
title Extending and refining the nuclear mass surface with ISOLTRAP and MISTRAL
title_full Extending and refining the nuclear mass surface with ISOLTRAP and MISTRAL
title_fullStr Extending and refining the nuclear mass surface with ISOLTRAP and MISTRAL
title_full_unstemmed Extending and refining the nuclear mass surface with ISOLTRAP and MISTRAL
title_short Extending and refining the nuclear mass surface with ISOLTRAP and MISTRAL
title_sort extending and refining the nuclear mass surface with isoltrap and mistral
topic Nuclear Physics - Experiment
url https://dx.doi.org/10.1023/A:1012698824893
http://cds.cern.ch/record/536819
work_keys_str_mv AT lunneymd extendingandrefiningthenuclearmasssurfacewithisoltrapandmistral
AT bolleng extendingandrefiningthenuclearmasssurfacewithisoltrapandmistral

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