Detailed spectroscopy of doubly magic $^{132}$Sn

6533b85bfe1ef96bd12ba1d8

RESEARCH PRODUCT

Detailed spectroscopy of doubly magic $^{132}$Sn

J. Benito L. M. Fraile A. Korgul M. Piersa E. Adamska A. N. Andreyev R. ÁLvarez-rodríguez A. E. Barzakh G. Benzoni T. Berry M. J. G. Borge M. Carmona K. Chrysalidis C. Costache J. G. Cubiss T. Day Goodacre H. De Witte D. V. Fedorov V. N. Fedosseev G. Fernández-martínez A. Fijałkowska M. Fila H. Fynbo D. Galaviz P. Galve M. García-díez P. T. Greenlees R. Grzywacz L. J. Harkness-brennan C. Henrich M. Huyse P. Ibáñez A. Illana Z. Janas J. Jolie D. S. Judson V. Karayonchev M. Kicinska-habior J. Konki J. Kurcewicz I. Lazarus R. Lica A. López-montes M. Lund H. Mach M. Madurga I. Marroquín B. Marsh M. C. Martínez C. Mazzocchi N. Marginean R. Marginean K. Miernik C. Mihai R. E. Mihai E. Nácher A. Negret B. Olaizola R. D. Page S. V. Paulauskas S. Pascu A. Perea V. Pucknell P. Rahkila C. Raison E. Rapisarda J. -M. Régis K. Rezynkina F. Rotaru S. Rothe D. Sánchez-parcerisa V. Sánchez-tembleque K. Schomacker G. S. Simpson Ch. Sotty L. Stan M. Stanoiu M. Stryjczyk O. Tengblad A. Turturica J. M. Udías P. Van Duppen V. Vedia A. Villa-abaunza S. Viñals W. B. Walters R. Wadsworth N. Warr

subject

Astrophysics::High Energy Astrophysical Phenomena FOS: Physical sciences Nuclear Physics - Experiment [PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex]Nuclear Experiment (nucl-ex)nucl-ex Nuclear Structure Nuclear Experiment

description

The structure of the doubly magic $^{132}_{50}$Sn$_{82}$ has been investigated at the ISOLDE facility at CERN, populated both by the $\beta^-$decay of $^{132}$In and $\beta^-$-delayed neutron emission of $^{133}$In. The level scheme of $^{132}$Sn is greatly expanded with the addition of 68 $\gamma$-transitions and 17 levels observed for the first time in the $\beta$ decay. The information on the excited structure is completed by new $\gamma$-transitions and states populated in the $\beta$-n decay of $^{133}$In. Improved delayed neutron emission probabilities are obtained both for $^{132}$In and $^{133}$In. Level lifetimes are measured via the Advanced Time-Delayed $\beta\gamma\gamma$(t) fast-timing method. An interpretation of the level structure is given based on the experimental findings and the particle-hole configurations arising from core excitations both from the \textit{N} = 82 and \textit{Z} = 50 shells, leading to positive and negative parity particle-hole multiplets. The experimental information provides new data to challenge the theoretical description of $^{132}$Sn.

year	journal	country	edition	language
2020-07-06

https://dx.doi.org/10.48550/arxiv.2007.03029