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Effect of shell closure N = 50 and N = 82 on the structure of very neutron-rich nuclei produced at ALTO. Measurements of neutron emission probabilities and half lives of nuclei at astrophysical r-processes pathTestov, Dmitry 17 January 2014 (has links) (PDF)
Nowadays we are all witnesses of a competition of facilities at different countries to study unknown regions of neutron rich nuclei. Much efforts are devoted to understand the role of neutron excess and its influence on nuclei in vicinity of closed neutron shells. One of the means to investigate nuclear structure is in beta-decay. Once a nucleus is proven to exist, its beta-decay properties, such as T1/2 and Pn (probability of beta-delayed neutron emission), which are relatively easy to measure, can provide the first hints on the nuclear structure. On the r-process site, "waiting points"(nuclei on closed neutron shells) has significant effects on the r-process dynamics and the abundance distribution. The actual side and the astrophysical conditions under which the nuclear synthesis takes place are still not certainly known - since r-process nuclei are difficult to produce and to study experimentally, input parameters for r-process calculations are mostly derived from theoretical models. As it has been seen lately, most of the theories have failed to reproduce newly measured data sets near shell closures. With new experimental data already (or shortly) available theoretical approaches can be adjusted. Since a beta-delayed neutron emission becomes strong if not dominating decaying channel for nuclei far stability, a proper neutron detector to study their properties is indispensable. To conduct the appropriate investigations, in the frame of the present thesis, in close collaboration with JINR (Dubna) a new detection system was constructed. It consists of 80 ³He-filled counters, 4π beta detector and a HPGe in order to measure simultaneously beta, gamma, neutron activity. The development of such a detection system system, currently installed at ALTO ISOL facility, was the first objective of the thesis. Then, during two experimental campaigns conducted to investigate beta decay properties of neutron rich nuclei in the neighborhood of N=50, N=82 the workability of the newly produced detection system was proven. In the vicinity of ⁷⁸Ni: half- lives and probability of beta-delayed neutron emission for ⁸º,⁸²,⁸³,⁸⁴Ga were measured. We were the first to observe the structure of ⁸¹,⁸² Ge via beta neutron gated gamma spectra. Thanks to the neutron detection channel the absolute intensities of beta decay were proposed for the first time. In the vicinity of ¹³²Sn the half lives of ¹²³Ag, ¹²⁴Ag, ¹²⁵Ag and ¹²⁷In, ¹²⁸In was measured. For the first time the beta delayed neutron emission was observed for ¹²⁶Cd, its Pn value also measured. Based on the data obtained we come to the conclusion that to figure out the relative contribution of allowed and forbidden decays more theoretical efforts should be done crossing the N=50 shell. Whereas in the vicinity of N=82 shell more experimental challenge are required.
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Effect of shell closure N = 50 and N = 82 on the structure of very neutron-rich nuclei produced at ALTO : measurements of neutron emission probabilities and half lives of nuclei at astrophysical r-processes path / Effet de la fermeture des couches N = 50 et N = 82 sur la structure des noyaux très riches en neutrons produits sur ALTO : mesures de probabilités d'émission de neutrons et des temps de vie des noyaux sur le site de processus-rTestov, Dmitry 17 January 2014 (has links)
Aujourd'hui, nous sommes tous témoins d'une compétition des installations en pays différents pour étudier les régions inconnues de noyaux riches en neutrons. Beaucoup d'efforts sont consacrés à comprendre le rôle de l'excès de neutrons et son influence sur les noyaux dans les environs de coquilles de neutrons fermées. Un des moyens pour étudier la structure nucléaire est via la désintégration bêta. Une fois un noyau est prouvé d'exister, ses propriétés de désintégration bêta, comme T1/2 et Pn (probabilité de l'émission de neutrons de bêta-retardés), qui sont relativement faciles à mesurer, peuvent fournir les premiers indices sur la structure nucléaire. Sur le site de processus-r des «points d'attente» (noyaux sur des coquilles de neutrons fermés) ont des effets importants sur la dynamique processus-r ainsi que sur la distribution de l'abondance des éléments. Les conditions astrophysiques exactes en vertu de desquelles la synthèse nucléaire a lieu ne sont pas connus avec certitude. Parce que les noyaux participant en processus-r sont difficiles à synthétiser même aujourd'hui et à étudier expérimentalement, les paramètres nécessaires pour les calculs du processus-r sont principalement dérivés de modèles théoriques. Comme on l'a vu récemment, la plupart des théories n'ont pas réussi à reproduire des ensembles de données nouvellement mesurées près de fermetures de couche. Avec de nouvelles données expérimentales déjà (ou bientôt) disponibles les approches théoriques peuvent être ajustées. Comme émission de neutrons retardée bêta devient plus importante voie le canal dominant en désintégration des noyaux loin d'un stabilité, l'utilisation d'un détecteur de neutrons approprié afin d'étudier leurs propriétés est indispensable. C'est pour mener la recherche appropriée que dans le cadre de la thèse, en étroite collaboration avec le JINR (Dubna) un nouveau système de détection a été construit. Il se compose de 80 compteurs de ³He, un détecteur 4π de bêta et un HPGe afin de mesurer simultanément l'activité de gamma, bêta et neutrons. Le développement d'un tel système de détection, actuellement installé sur ALTO, a été le premier objectif de la thèse. Puis, au cours de deux campagnes expérimentales menées pour examiner les propriétés de désintégration bêta de noyaux riches en neutrons dans le proximité de N = 50, N = 82 la capacité de travail du système de détection produit a été prouvée. Dans le région de ⁷⁸Ni : le temps de vie et de la probabilité de l'émission de neutrons bêta retardés pour ⁸º,⁸²,⁸³,⁸⁴Ga ont été mesurés. Nous sommes les premiers à observer la structure de ⁸¹,⁸² Ge via spectroscopie gamma spectre conditionnée par bêta et par neutron. Grâce à la détection des neutrons les intensités absolues de la désintégration bêta ont été proposées pour la première fois. Dans le région de ¹³²Sn les temps de vie de ¹²³Ag, ¹²⁴Ag, ¹²⁵Ag et ¹²⁷In, ¹²⁸In ont été mesurées. Pour la première fois l'émission de neutrons retardés bêta a été observée pour le cas de ¹²⁶Cd, sa valeur Pn également mesurée. Sur la base des données obtenues, nous arrivons à la conclusion que, pour déterminer la contribution relative de désintégrations permises et interdites les efforts théoriques doivent être faites en traversant la couche N = 50. Alors que dans le région de N = 82 plus de données expérimentales sont nécessaires. / Nowadays we are all witnesses of a competition of facilities at different countries to study unknown regions of neutron rich nuclei. Much efforts are devoted to understand the role of neutron excess and its influence on nuclei in vicinity of closed neutron shells. One of the means to investigate nuclear structure is in beta-decay. Once a nucleus is proven to exist, its beta-decay properties, such as T1/2 and Pn (probability of beta-delayed neutron emission), which are relatively easy to measure, can provide the first hints on the nuclear structure. On the r-process site, "waiting points"(nuclei on closed neutron shells) has significant effects on the r-process dynamics and the abundance distribution. The actual side and the astrophysical conditions under which the nuclear synthesis takes place are still not certainly known - since r-process nuclei are difficult to produce and to study experimentally, input parameters for r-process calculations are mostly derived from theoretical models. As it has been seen lately, most of the theories have failed to reproduce newly measured data sets near shell closures. With new experimental data already (or shortly) available theoretical approaches can be adjusted. Since a beta-delayed neutron emission becomes strong if not dominating decaying channel for nuclei far stability, a proper neutron detector to study their properties is indispensable. To conduct the appropriate investigations, in the frame of the present thesis, in close collaboration with JINR (Dubna) a new detection system was constructed. It consists of 80 ³He-filled counters, 4π beta detector and a HPGe in order to measure simultaneously beta, gamma, neutron activity. The development of such a detection system system, currently installed at ALTO ISOL facility, was the first objective of the thesis. Then, during two experimental campaigns conducted to investigate beta decay properties of neutron rich nuclei in the neighborhood of N=50, N=82 the workability of the newly produced detection system was proven. In the vicinity of ⁷⁸Ni: half- lives and probability of beta-delayed neutron emission for ⁸º,⁸²,⁸³,⁸⁴Ga were measured. We were the first to observe the structure of ⁸¹,⁸² Ge via beta neutron gated gamma spectra. Thanks to the neutron detection channel the absolute intensities of beta decay were proposed for the first time. In the vicinity of ¹³²Sn the half lives of ¹²³Ag, ¹²⁴Ag, ¹²⁵Ag and ¹²⁷In, ¹²⁸In was measured. For the first time the beta delayed neutron emission was observed for ¹²⁶Cd, its Pn value also measured. Based on the data obtained we come to the conclusion that to figure out the relative contribution of allowed and forbidden decays more theoretical efforts should be done crossing the N=50 shell. Whereas in the vicinity of N=82 shell more experimental challenge are required.
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