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Autores principales: Stetz, T., Mayr, H., Werner, V., Pietralla, N., Tsunoda, Y., Otsuka, T., Rainovski, G., Beck, T., Borcea, R., Calinescu, S., Costache, C., Dinescu, I. E., Ide, K. E., Ionescu, A. N., Koseoglou, P., Lica, R., Mărginean, N., Mihai, R. E., Nickel, C. M., Nita, C. R., Stan, L., Toma, S., Zidarova, R.
Formato: Preprint
Publicado: 2024
Materias:
Acceso en línea:https://arxiv.org/abs/2501.01436
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author Stetz, T.
Mayr, H.
Werner, V.
Pietralla, N.
Tsunoda, Y.
Otsuka, T.
Rainovski, G.
Beck, T.
Borcea, R.
Calinescu, S.
Costache, C.
Dinescu, I. E.
Ide, K. E.
Ionescu, A. N.
Koseoglou, P.
Lica, R.
Mărginean, N.
Mihai, R. E.
Nickel, C. M.
Nita, C. R.
Stan, L.
Toma, S.
Zidarova, R.
author_facet Stetz, T.
Mayr, H.
Werner, V.
Pietralla, N.
Tsunoda, Y.
Otsuka, T.
Rainovski, G.
Beck, T.
Borcea, R.
Calinescu, S.
Costache, C.
Dinescu, I. E.
Ide, K. E.
Ionescu, A. N.
Koseoglou, P.
Lica, R.
Mărginean, N.
Mihai, R. E.
Nickel, C. M.
Nita, C. R.
Stan, L.
Toma, S.
Zidarova, R.
contents The $M1$ transition strengths between excited $2^+$ states of the neutron-rich, radioactive nuclide $^{132}$Te have been studied through direct lifetime measurements using the Doppler-shift attenuation method in a two-neutron transfer reaction on a $^{130}$Te target. An unambiguous identification of the lowest-lying mixed-symmetry $2^+$ state has been achieved on the basis of the large $B(M1;2^+_2\rightarrow2^+_1$)=0.18(2) $μ_\mathrm{N}^2$ transition strength, in agreement with shell-model calculations. Results are compared to the shell model, and the analysis of both, data and calculations, unambiguously identifies the second-excited $2^+$ state of $^{132}$Te as the one-quadrupole phonon mixed-symmetry state of this isotope. A lowering of the energy and $B(M1;2^+_\mathrm{ms}\rightarrow 2^+_1)$ strength within the $N$=80 isotones toward the $Z$=50 shell closure is observed, which goes alongside with the lowering of the $E2$ collectivity approaching the magic proton shell.
format Preprint
id arxiv_https___arxiv_org_abs_2501_01436
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Isolated one-phonon mixed-symmetry 2+ state of the radioactive neutron-rich nuclide 132Te
Stetz, T.
Mayr, H.
Werner, V.
Pietralla, N.
Tsunoda, Y.
Otsuka, T.
Rainovski, G.
Beck, T.
Borcea, R.
Calinescu, S.
Costache, C.
Dinescu, I. E.
Ide, K. E.
Ionescu, A. N.
Koseoglou, P.
Lica, R.
Mărginean, N.
Mihai, R. E.
Nickel, C. M.
Nita, C. R.
Stan, L.
Toma, S.
Zidarova, R.
Nuclear Experiment
The $M1$ transition strengths between excited $2^+$ states of the neutron-rich, radioactive nuclide $^{132}$Te have been studied through direct lifetime measurements using the Doppler-shift attenuation method in a two-neutron transfer reaction on a $^{130}$Te target. An unambiguous identification of the lowest-lying mixed-symmetry $2^+$ state has been achieved on the basis of the large $B(M1;2^+_2\rightarrow2^+_1$)=0.18(2) $μ_\mathrm{N}^2$ transition strength, in agreement with shell-model calculations. Results are compared to the shell model, and the analysis of both, data and calculations, unambiguously identifies the second-excited $2^+$ state of $^{132}$Te as the one-quadrupole phonon mixed-symmetry state of this isotope. A lowering of the energy and $B(M1;2^+_\mathrm{ms}\rightarrow 2^+_1)$ strength within the $N$=80 isotones toward the $Z$=50 shell closure is observed, which goes alongside with the lowering of the $E2$ collectivity approaching the magic proton shell.
title Isolated one-phonon mixed-symmetry 2+ state of the radioactive neutron-rich nuclide 132Te
topic Nuclear Experiment
url https://arxiv.org/abs/2501.01436