Quadrupole deformation of Xe 130 measured in a Coulomb-excitation experiment

L. Morrison; K. Hadyńska-Klek; Zs Podolyák; D. T. Doherty; L. P. Gaffney; L. Kaya; L. Próchniak; J. Samorajczyk-Pyśk; J. Srebrny; T. Berry; A. Boukhari; M. Brunet; R. Canavan; R. Catherall; S. J. Colosimo; J. G. Cubiss; H. De Witte; Ch Fransen; E. Giannopoulos; H. Hess; T. Kröll; N. Lalović; B. Marsh; Y. Martinez Palenzuela; P. J. Napiorkowski; G. O'Neill; J. Pakarinen; J. P. Ramos; P. Reiter; J. A. Rodriguez; D. Rosiak; S. Rothe; M. Rudigier; M. Siciliano; J. Snäll; P. Spagnoletti; S. Thiel; N. Warr; F. Wenander; R. Zidarova; M. Zielińska

doi:10.1103/PhysRevC.102.054304

Quadrupole deformation of Xe 130 measured in a Coulomb-excitation experiment

L. Morrison, K. Hadyńska-Klek, Zs Podolyák, D. T. Doherty, L. P. Gaffney, L. Kaya, L. Próchniak, J. Samorajczyk-Pyśk, J. Srebrny, T. Berry, A. Boukhari, M. Brunet, R. Canavan, R. Catherall, S. J. Colosimo, J. G. Cubiss, H. De Witte, Ch Fransen, E. Giannopoulos, H. HessT. Kröll, N. Lalović, B. Marsh, Y. Martinez Palenzuela, P. J. Napiorkowski, G. O'Neill, J. Pakarinen, J. P. Ramos, P. Reiter, J. A. Rodriguez, D. Rosiak, S. Rothe, M. Rudigier, M. Siciliano, J. Snäll, P. Spagnoletti, S. Thiel, N. Warr, F. Wenander, R. Zidarova, M. Zielińska

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Abstract

Low-lying states in the isotope Xe130 were populated in a Coulomb-excitation experiment performed at CERN's HIE-ISOLDE facility. The magnitudes and relative signs of seven E2 matrix elements and one M1 matrix element coupling five low-lying states in Xe130 were determined using the semiclassical coupled-channel Coulomb-excitation least-squares search code gosia. The diagonal E2 matrix elements of both the 21+ and 41+ states were extracted for the first time. The reduced transition strengths are in line with those obtained from previous measurements. Experimental results were compared with the general Bohr Hamiltonian with the microscopic input from mean-field theory utilizing universal nuclear energy density functional (UNEDF0), shell-model calculations using the GCN50:82 and SN100PN interactions, and simple phenomenological models (Davydov-Filippov and γ-soft). The extracted shape parameters indicate triaxial-prolate deformation in the ground-state band. In general, good agreement between theoretical predictions and experimental values was found, while neither phenomenological model was found to provide an adequate description of Xe130.

Original language	English
Article number	054304
Journal	Physical Review C
Volume	102
Issue number	5
DOIs	https://doi.org/10.1103/PhysRevC.102.054304
Publication status	Published - 2020

Subject classification (UKÄ)

Subatomic Physics

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10.1103/PhysRevC.102.054304

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Morrison, L., Hadyńska-Klek, K., Podolyák, Z., Doherty, D. T., Gaffney, L. P., Kaya, L., Próchniak, L., Samorajczyk-Pyśk, J., Srebrny, J., Berry, T., Boukhari, A., Brunet, M., Canavan, R., Catherall, R., Colosimo, S. J., Cubiss, J. G., De Witte, H., Fransen, C., Giannopoulos, E., ... Zielińska, M. (2020). Quadrupole deformation of Xe 130 measured in a Coulomb-excitation experiment. Physical Review C, 102(5), Article 054304. https://doi.org/10.1103/PhysRevC.102.054304

@article{52b040ef27df4dfeb3fe74b9a04344eb,

title = "Quadrupole deformation of Xe 130 measured in a Coulomb-excitation experiment",

abstract = "Low-lying states in the isotope Xe130 were populated in a Coulomb-excitation experiment performed at CERN's HIE-ISOLDE facility. The magnitudes and relative signs of seven E2 matrix elements and one M1 matrix element coupling five low-lying states in Xe130 were determined using the semiclassical coupled-channel Coulomb-excitation least-squares search code gosia. The diagonal E2 matrix elements of both the 21+ and 41+ states were extracted for the first time. The reduced transition strengths are in line with those obtained from previous measurements. Experimental results were compared with the general Bohr Hamiltonian with the microscopic input from mean-field theory utilizing universal nuclear energy density functional (UNEDF0), shell-model calculations using the GCN50:82 and SN100PN interactions, and simple phenomenological models (Davydov-Filippov and γ-soft). The extracted shape parameters indicate triaxial-prolate deformation in the ground-state band. In general, good agreement between theoretical predictions and experimental values was found, while neither phenomenological model was found to provide an adequate description of Xe130. ",

author = "L. Morrison and K. Hady{\'n}ska-Klek and Zs Podoly{\'a}k and Doherty, {D. T.} and Gaffney, {L. P.} and L. Kaya and L. Pr{\'o}chniak and J. Samorajczyk-Py{\'s}k and J. Srebrny and T. Berry and A. Boukhari and M. Brunet and R. Canavan and R. Catherall and Colosimo, {S. J.} and Cubiss, {J. G.} and {De Witte}, H. and Ch Fransen and E. Giannopoulos and H. Hess and T. Kr{\"o}ll and N. Lalovi{\'c} and B. Marsh and Palenzuela, {Y. Martinez} and Napiorkowski, {P. J.} and G. O'Neill and J. Pakarinen and Ramos, {J. P.} and P. Reiter and Rodriguez, {J. A.} and D. Rosiak and S. Rothe and M. Rudigier and M. Siciliano and J. Sn{\"a}ll and P. Spagnoletti and S. Thiel and N. Warr and F. Wenander and R. Zidarova and M. Zieli{\'n}ska",

year = "2020",

doi = "10.1103/PhysRevC.102.054304",

language = "English",

volume = "102",

journal = "Physical Review C",

issn = "2469-9985",

publisher = "American Physical Society",

number = "5",

}

Morrison, L, Hadyńska-Klek, K, Podolyák, Z, Doherty, DT, Gaffney, LP, Kaya, L, Próchniak, L, Samorajczyk-Pyśk, J, Srebrny, J, Berry, T, Boukhari, A, Brunet, M, Canavan, R, Catherall, R, Colosimo, SJ, Cubiss, JG, De Witte, H, Fransen, C, Giannopoulos, E, Hess, H, Kröll, T, Lalović, N, Marsh, B, Palenzuela, YM, Napiorkowski, PJ, O'Neill, G, Pakarinen, J, Ramos, JP, Reiter, P, Rodriguez, JA, Rosiak, D, Rothe, S, Rudigier, M, Siciliano, M, Snäll, J, Spagnoletti, P, Thiel, S, Warr, N, Wenander, F, Zidarova, R & Zielińska, M 2020, 'Quadrupole deformation of Xe 130 measured in a Coulomb-excitation experiment', Physical Review C, vol. 102, no. 5, 054304. https://doi.org/10.1103/PhysRevC.102.054304

TY - JOUR

T1 - Quadrupole deformation of Xe 130 measured in a Coulomb-excitation experiment

AU - Morrison, L.

AU - Hadyńska-Klek, K.

AU - Podolyák, Zs

AU - Doherty, D. T.

AU - Gaffney, L. P.

AU - Kaya, L.

AU - Próchniak, L.

AU - Samorajczyk-Pyśk, J.

AU - Srebrny, J.

AU - Berry, T.

AU - Boukhari, A.

AU - Brunet, M.

AU - Canavan, R.

AU - Catherall, R.

AU - Colosimo, S. J.

AU - Cubiss, J. G.

AU - De Witte, H.

AU - Fransen, Ch

AU - Giannopoulos, E.

AU - Hess, H.

AU - Kröll, T.

AU - Lalović, N.

AU - Marsh, B.

AU - Palenzuela, Y. Martinez

AU - Napiorkowski, P. J.

AU - O'Neill, G.

AU - Pakarinen, J.

AU - Ramos, J. P.

AU - Reiter, P.

AU - Rodriguez, J. A.

AU - Rosiak, D.

AU - Rothe, S.

AU - Rudigier, M.

AU - Siciliano, M.

AU - Snäll, J.

AU - Spagnoletti, P.

AU - Thiel, S.

AU - Warr, N.

AU - Wenander, F.

AU - Zidarova, R.

AU - Zielińska, M.

PY - 2020

Y1 - 2020

N2 - Low-lying states in the isotope Xe130 were populated in a Coulomb-excitation experiment performed at CERN's HIE-ISOLDE facility. The magnitudes and relative signs of seven E2 matrix elements and one M1 matrix element coupling five low-lying states in Xe130 were determined using the semiclassical coupled-channel Coulomb-excitation least-squares search code gosia. The diagonal E2 matrix elements of both the 21+ and 41+ states were extracted for the first time. The reduced transition strengths are in line with those obtained from previous measurements. Experimental results were compared with the general Bohr Hamiltonian with the microscopic input from mean-field theory utilizing universal nuclear energy density functional (UNEDF0), shell-model calculations using the GCN50:82 and SN100PN interactions, and simple phenomenological models (Davydov-Filippov and γ-soft). The extracted shape parameters indicate triaxial-prolate deformation in the ground-state band. In general, good agreement between theoretical predictions and experimental values was found, while neither phenomenological model was found to provide an adequate description of Xe130.

AB - Low-lying states in the isotope Xe130 were populated in a Coulomb-excitation experiment performed at CERN's HIE-ISOLDE facility. The magnitudes and relative signs of seven E2 matrix elements and one M1 matrix element coupling five low-lying states in Xe130 were determined using the semiclassical coupled-channel Coulomb-excitation least-squares search code gosia. The diagonal E2 matrix elements of both the 21+ and 41+ states were extracted for the first time. The reduced transition strengths are in line with those obtained from previous measurements. Experimental results were compared with the general Bohr Hamiltonian with the microscopic input from mean-field theory utilizing universal nuclear energy density functional (UNEDF0), shell-model calculations using the GCN50:82 and SN100PN interactions, and simple phenomenological models (Davydov-Filippov and γ-soft). The extracted shape parameters indicate triaxial-prolate deformation in the ground-state band. In general, good agreement between theoretical predictions and experimental values was found, while neither phenomenological model was found to provide an adequate description of Xe130.

U2 - 10.1103/PhysRevC.102.054304

DO - 10.1103/PhysRevC.102.054304

M3 - Article

AN - SCOPUS:85096103490

SN - 2469-9985

VL - 102

JO - Physical Review C

JF - Physical Review C

IS - 5

M1 - 054304

ER -

Quadrupole deformation of Xe 130 measured in a Coulomb-excitation experiment

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