Cargando…
New systematic features in the neutron-deficient Au isotopes
A recently developed portable, on-line capability for γ-ray and conversion-electron spectroscopy, HIGH-TATRA is demonstrated with its application to the study of (183)Hg $\to $ (183)Au at ISOLDE. Key details of the low-energy level scheme of the neutron-deficient nuclide (183)Au populated in this de...
| Autores principales: | , , , , , , , , , , , , , , , , , , , , , , , , , , , , |
|---|---|
| Lenguaje: | eng |
| Publicado: |
2017
|
| Materias: | |
| Acceso en línea: | https://dx.doi.org/10.1088/1361-6471/aa7297 http://cds.cern.ch/record/2284124 |
| _version_ | 1780955836919578624 |
|---|---|
| author | Venhart, M Wood, J L Sedlák, M Balogh, M Bírová, M Boston, A J Cocolios, T E Harkness-Brennan, L J Herzberg, R D Holub, L Joss, D T Judson, D S Kliman, J Klimo, J Krupa, L Lušnák, J Makhathini, L Matoušek, V Motyčák, Š Page, R D Patel, A Petrík, K Podshibyakin, A V Prajapati, P M Rodin, A M Špaček, A Urban, R Unsworth, C Veselský, M |
| author_facet | Venhart, M Wood, J L Sedlák, M Balogh, M Bírová, M Boston, A J Cocolios, T E Harkness-Brennan, L J Herzberg, R D Holub, L Joss, D T Judson, D S Kliman, J Klimo, J Krupa, L Lušnák, J Makhathini, L Matoušek, V Motyčák, Š Page, R D Patel, A Petrík, K Podshibyakin, A V Prajapati, P M Rodin, A M Špaček, A Urban, R Unsworth, C Veselský, M |
| author_sort | Venhart, M |
| collection | CERN |
| description | A recently developed portable, on-line capability for γ-ray and conversion-electron spectroscopy, HIGH-TATRA is demonstrated with its application to the study of (183)Hg $\to $ (183)Au at ISOLDE. Key details of the low-energy level scheme of the neutron-deficient nuclide (183)Au populated in this decay are presented. A broad energy germanium detector is employed to achieve this (the first-ever use of such a device in decay-scheme spectroscopy), by way of a combination of high-gain γ-ray singles spectroscopy and γ–γ coincidence spectroscopy. Further, by combining the γ-ray detectors with a liquid-nitrogen-cooled Si(Li) detector operated under high vacuum, conversion-electron singles and e–γ coincidences are obtained. These data lead to the determination of transition multipolarities and the location of a highly converted (E0 + M1 + E2) transition in the (183)Au decay scheme, suggesting a possible new shape coexisting structure in this nucleus. Identification of new intruder and normal states fixes their relative energies in (183)Au for the first time. New systematic features in the odd-Au isotopes are presented. |
| id | oai-inspirehep.net-1604093 |
| institution | Organización Europea para la Investigación Nuclear |
| language | eng |
| publishDate | 2017 |
| record_format | invenio |
| spelling | oai-inspirehep.net-16040932019-09-30T06:29:59Zdoi:10.1088/1361-6471/aa7297http://cds.cern.ch/record/2284124engVenhart, MWood, J LSedlák, MBalogh, MBírová, MBoston, A JCocolios, T EHarkness-Brennan, L JHerzberg, R DHolub, LJoss, D TJudson, D SKliman, JKlimo, JKrupa, LLušnák, JMakhathini, LMatoušek, VMotyčák, ŠPage, R DPatel, APetrík, KPodshibyakin, A VPrajapati, P MRodin, A MŠpaček, AUrban, RUnsworth, CVeselský, MNew systematic features in the neutron-deficient Au isotopesDetectors and Experimental TechniquesNuclear Physics - ExperimentA recently developed portable, on-line capability for γ-ray and conversion-electron spectroscopy, HIGH-TATRA is demonstrated with its application to the study of (183)Hg $\to $ (183)Au at ISOLDE. Key details of the low-energy level scheme of the neutron-deficient nuclide (183)Au populated in this decay are presented. A broad energy germanium detector is employed to achieve this (the first-ever use of such a device in decay-scheme spectroscopy), by way of a combination of high-gain γ-ray singles spectroscopy and γ–γ coincidence spectroscopy. Further, by combining the γ-ray detectors with a liquid-nitrogen-cooled Si(Li) detector operated under high vacuum, conversion-electron singles and e–γ coincidences are obtained. These data lead to the determination of transition multipolarities and the location of a highly converted (E0 + M1 + E2) transition in the (183)Au decay scheme, suggesting a possible new shape coexisting structure in this nucleus. Identification of new intruder and normal states fixes their relative energies in (183)Au for the first time. New systematic features in the odd-Au isotopes are presented.oai:inspirehep.net:16040932017 |
| spellingShingle | Detectors and Experimental Techniques Nuclear Physics - Experiment Venhart, M Wood, J L Sedlák, M Balogh, M Bírová, M Boston, A J Cocolios, T E Harkness-Brennan, L J Herzberg, R D Holub, L Joss, D T Judson, D S Kliman, J Klimo, J Krupa, L Lušnák, J Makhathini, L Matoušek, V Motyčák, Š Page, R D Patel, A Petrík, K Podshibyakin, A V Prajapati, P M Rodin, A M Špaček, A Urban, R Unsworth, C Veselský, M New systematic features in the neutron-deficient Au isotopes |
| title | New systematic features in the neutron-deficient Au isotopes |
| title_full | New systematic features in the neutron-deficient Au isotopes |
| title_fullStr | New systematic features in the neutron-deficient Au isotopes |
| title_full_unstemmed | New systematic features in the neutron-deficient Au isotopes |
| title_short | New systematic features in the neutron-deficient Au isotopes |
| title_sort | new systematic features in the neutron-deficient au isotopes |
| topic | Detectors and Experimental Techniques Nuclear Physics - Experiment |
| url | https://dx.doi.org/10.1088/1361-6471/aa7297 http://cds.cern.ch/record/2284124 |
| work_keys_str_mv | AT venhartm newsystematicfeaturesintheneutrondeficientauisotopes AT woodjl newsystematicfeaturesintheneutrondeficientauisotopes AT sedlakm newsystematicfeaturesintheneutrondeficientauisotopes AT baloghm newsystematicfeaturesintheneutrondeficientauisotopes AT birovam newsystematicfeaturesintheneutrondeficientauisotopes AT bostonaj newsystematicfeaturesintheneutrondeficientauisotopes AT cocolioste newsystematicfeaturesintheneutrondeficientauisotopes AT harknessbrennanlj newsystematicfeaturesintheneutrondeficientauisotopes AT herzbergrd newsystematicfeaturesintheneutrondeficientauisotopes AT holubl newsystematicfeaturesintheneutrondeficientauisotopes AT jossdt newsystematicfeaturesintheneutrondeficientauisotopes AT judsonds newsystematicfeaturesintheneutrondeficientauisotopes AT klimanj newsystematicfeaturesintheneutrondeficientauisotopes AT klimoj newsystematicfeaturesintheneutrondeficientauisotopes AT krupal newsystematicfeaturesintheneutrondeficientauisotopes AT lusnakj newsystematicfeaturesintheneutrondeficientauisotopes AT makhathinil newsystematicfeaturesintheneutrondeficientauisotopes AT matousekv newsystematicfeaturesintheneutrondeficientauisotopes AT motycaks newsystematicfeaturesintheneutrondeficientauisotopes AT pagerd newsystematicfeaturesintheneutrondeficientauisotopes AT patela newsystematicfeaturesintheneutrondeficientauisotopes AT petrikk newsystematicfeaturesintheneutrondeficientauisotopes AT podshibyakinav newsystematicfeaturesintheneutrondeficientauisotopes AT prajapatipm newsystematicfeaturesintheneutrondeficientauisotopes AT rodinam newsystematicfeaturesintheneutrondeficientauisotopes AT spaceka newsystematicfeaturesintheneutrondeficientauisotopes AT urbanr newsystematicfeaturesintheneutrondeficientauisotopes AT unsworthc newsystematicfeaturesintheneutrondeficientauisotopes AT veselskym newsystematicfeaturesintheneutrondeficientauisotopes |