Lifetimes of the low-lying yrast states 2+,4+, and 6+ of the unstable nucleus 182Os were measured using digital fast-timing techniques. The lifetimes of the 4+ and 6+ states were determined for the first time. The remeasured value for the lifetime of the 2_1+ state was taken into account to evaluate the discrepancy between two inconsistent literature values. The lifetimes and extracted B(E2) values are presented and discussed in terms of collective signatures and transitional phenomena. The B(E2;4_1+→2_1+)/B(E2;2_1+→0_1+) ratio of 1.39(7) supports the interpretation of 182Os as a rigid rotor. This value is discussed in the context of these of the neighboring isotopes and isotones and calculations in the framework of the interacting boson model 1. Additionally, competing influences from the near lying collective deformed region,γ-soft rotors, X(5) symmetry, and neighboring regions of shape coexistence in low excitation states are assumed to influence the structure of the nucleus of interest: The trend of the excitation energies of the γ- and Kπ=0–bands in the osmium isotopic chain change remarkably at 182Os. This consideration helps to us delimit and understand the structural transitions in the isotopic and isotonic chains that intersect at 182Os.
Description
Phys. Rev. C 108, 024305 (2023) - Lifetime measurements in low yrast states and spectroscopic peculiarities in 182Os
%0 Journal Article
%1 PhysRevC.108.024305
%A Harter, A.
%A Esmaylzadeh, A.
%A Knafla, L.
%A Fransen, C.
%A Spee, F. v.
%A Jolie, J.
%A Ley, M.
%A Karayonchev, V.
%A Fischer, J.
%A Pfeil, A.
%D 2023
%I American Physical Society
%J Phys. Rev. C
%K jolie myown
%N 2
%P 024305
%R 10.1103/PhysRevC.108.024305
%T Lifetime measurements in low yrast states and spectroscopic peculiarities in 182Os
%U https://link.aps.org/doi/10.1103/PhysRevC.108.024305
%V 108
%X Lifetimes of the low-lying yrast states 2+,4+, and 6+ of the unstable nucleus 182Os were measured using digital fast-timing techniques. The lifetimes of the 4+ and 6+ states were determined for the first time. The remeasured value for the lifetime of the 2_1+ state was taken into account to evaluate the discrepancy between two inconsistent literature values. The lifetimes and extracted B(E2) values are presented and discussed in terms of collective signatures and transitional phenomena. The B(E2;4_1+→2_1+)/B(E2;2_1+→0_1+) ratio of 1.39(7) supports the interpretation of 182Os as a rigid rotor. This value is discussed in the context of these of the neighboring isotopes and isotones and calculations in the framework of the interacting boson model 1. Additionally, competing influences from the near lying collective deformed region,γ-soft rotors, X(5) symmetry, and neighboring regions of shape coexistence in low excitation states are assumed to influence the structure of the nucleus of interest: The trend of the excitation energies of the γ- and Kπ=0–bands in the osmium isotopic chain change remarkably at 182Os. This consideration helps to us delimit and understand the structural transitions in the isotopic and isotonic chains that intersect at 182Os.
@article{PhysRevC.108.024305,
abstract = {Lifetimes of the low-lying yrast states 2+,4+, and 6+ of the unstable nucleus 182Os were measured using digital fast-timing techniques. The lifetimes of the 4+ and 6+ states were determined for the first time. The remeasured value for the lifetime of the 2_1+ state was taken into account to evaluate the discrepancy between two inconsistent literature values. The lifetimes and extracted B(E2) values are presented and discussed in terms of collective signatures and transitional phenomena. The B(E2;4_1+→2_1+)/B(E2;2_1+→0_1+) ratio of 1.39(7) supports the interpretation of 182Os as a rigid rotor. This value is discussed in the context of these of the neighboring isotopes and isotones and calculations in the framework of the interacting boson model 1. Additionally, competing influences from the near lying collective deformed region,γ-soft rotors, X(5) symmetry, and neighboring regions of shape coexistence in low excitation states are assumed to influence the structure of the nucleus of interest: The trend of the excitation energies of the γ- and Kπ=0–bands in the osmium isotopic chain change remarkably at 182Os. This consideration helps to us delimit and understand the structural transitions in the isotopic and isotonic chains that intersect at 182Os.},
added-at = {2023-09-20T13:36:44.000+0200},
author = {Harter, A. and Esmaylzadeh, A. and Knafla, L. and Fransen, C. and Spee, F. v. and Jolie, J. and Ley, M. and Karayonchev, V. and Fischer, J. and Pfeil, A.},
biburl = {https://www.bibsonomy.org/bibtex/2a09c2ec787f63ce1386e3114e4a95da0/ikpcologne},
description = {Phys. Rev. C 108, 024305 (2023) - Lifetime measurements in low yrast states and spectroscopic peculiarities in 182Os},
doi = {10.1103/PhysRevC.108.024305},
interhash = {eb09a8da2a741455c20bf9b2f3fbe749},
intrahash = {a09c2ec787f63ce1386e3114e4a95da0},
journal = {Phys. Rev. C},
keywords = {jolie myown},
month = aug,
number = 2,
numpages = {8},
pages = 024305,
publisher = {American Physical Society},
timestamp = {2023-09-20T13:36:44.000+0200},
title = {Lifetime measurements in low yrast states and spectroscopic peculiarities in 182Os},
url = {https://link.aps.org/doi/10.1103/PhysRevC.108.024305},
volume = 108,
year = 2023
}