Triaxiality of neutron-rich ruthenium nuclei studied by lifetime measurements

J. S. Heines; V. Modamio; A. Görgen; W. Korten; E. Clément; J. Dudouet; A. Lemasson; J. Ljungvall; J. M. Allmond; T. R. Rodríguez; A. M. Bruce; D. T. Doherty; A. Esmaylzadeh; E. R. Gamba; J. Gerl; G. Georgiev; L. Knafla; P. Koseoglou; S. Lalkovski; H. -J. Li; G. Pasqualato; L. G. Pedersen; S. Pietri; D. Ralet; E. Sahin; S. Siem; P. -A. Söderström; C. Theisen; T. Tornyi

doi:10.1140/epja/s10050-025-01782-4

Triaxiality of neutron-rich ruthenium nuclei studied by lifetime measurements

J. S. Heines
, V. Modamio
, A. Görgen
, W. Korten
, E. Clément
, J. Dudouet
, A. Lemasson
, J. Ljungvall
, J. M. Allmond
, T. R. Rodríguez
, A. M. Bruce
, D. T. Doherty
, A. Esmaylzadeh
, E. R. Gamba
, J. Gerl
, G. Georgiev
, L. Knafla
, P. Koseoglou
, S. Lalkovski
, H. -J. Li

G. Pasqualato, L. G. Pedersen, S. Pietri, D. Ralet, E. Sahin, S. Siem, P. -A. Söderström, C. Theisen, T. Tornyi

School of Arch, Tech and Eng

Research output: Contribution to journal › Article › peer-review

Abstract

The breaking of axial symmetry in nuclei enables otherwise precluded behaviours, making it an interesting phenomenon to study. Experimental fingerprints such as very low-lying 22+ states suggest pronounced triaxial deformation for the neutron-rich ruthenium isotopes. Nevertheless, theoretical calculations differ in the description of the triaxial deformation and its evolution with neutron number, making experimental data crucial to understanding it. We investigated the evolution of the degree of triaxiality and γ rigidity in neutron-rich ruthenium isotopes by measuring lifetimes of excited states in 108-112Ru with the recoil distance Doppler-shift method. The experiment was carried out at the Grand Accélérateur National d’Ions Lourds using the Advanced Gamma Tracking Array coupled to the Variable Mode Spectrometer. We obtained B(E2) values for 29 transitions in the studied nuclei and compared them with fully microscopic symmetry conserving configuration mixing calculations, and phenomenological generalized triaxial rotor and triaxial particle-rotor models. The models generally reproduce the measured transition strengths, and show an increase in triaxiality with neutron number, reaching near maximum triaxiality in 112Ru. The results are consistent with a transition from γ soft to γ rigid motion as the neutron number increases.

Original language	English
Article number	38
Number of pages	15
Journal	The European Physical Journal A - Hadrons and Nuclei
Volume	62
Issue number	3
DOIs	https://doi.org/10.1140/epja/s10050-025-01782-4
Publication status	Published - 2 Mar 2026

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© The Author(s) 2026.

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Heines, J. S., Modamio, V., Görgen, A., Korten, W., Clément, E., Dudouet, J., Lemasson, A., Ljungvall, J., Allmond, J. M., Rodríguez, T. R., Bruce, A. M., Doherty, D. T., Esmaylzadeh, A., Gamba, E. R., Gerl, J., Georgiev, G., Knafla, L., Koseoglou, P., Lalkovski, S., ... Tornyi, T. (2026). Triaxiality of neutron-rich ruthenium nuclei studied by lifetime measurements. The European Physical Journal A - Hadrons and Nuclei, 62(3), Article 38. https://doi.org/10.1140/epja/s10050-025-01782-4

@article{15fc04eb8c884f5c9f84d8aa1fb9d57a,

title = "Triaxiality of neutron-rich ruthenium nuclei studied by lifetime measurements",

abstract = "The breaking of axial symmetry in nuclei enables otherwise precluded behaviours, making it an interesting phenomenon to study. Experimental fingerprints such as very low-lying 22+ states suggest pronounced triaxial deformation for the neutron-rich ruthenium isotopes. Nevertheless, theoretical calculations differ in the description of the triaxial deformation and its evolution with neutron number, making experimental data crucial to understanding it. We investigated the evolution of the degree of triaxiality and γ rigidity in neutron-rich ruthenium isotopes by measuring lifetimes of excited states in 108-112Ru with the recoil distance Doppler-shift method. The experiment was carried out at the Grand Acc{\'e}l{\'e}rateur National d{\textquoteright}Ions Lourds using the Advanced Gamma Tracking Array coupled to the Variable Mode Spectrometer. We obtained B(E2) values for 29 transitions in the studied nuclei and compared them with fully microscopic symmetry conserving configuration mixing calculations, and phenomenological generalized triaxial rotor and triaxial particle-rotor models. The models generally reproduce the measured transition strengths, and show an increase in triaxiality with neutron number, reaching near maximum triaxiality in 112Ru. The results are consistent with a transition from γ soft to γ rigid motion as the neutron number increases.",

author = "Heines, \{J. S.\} and V. Modamio and A. G{\"o}rgen and W. Korten and E. Cl{\'e}ment and J. Dudouet and A. Lemasson and J. Ljungvall and Allmond, \{J. M.\} and Rodr{\'i}guez, \{T. R.\} and Bruce, \{A. M.\} and Doherty, \{D. T.\} and A. Esmaylzadeh and Gamba, \{E. R.\} and J. Gerl and G. Georgiev and L. Knafla and P. Koseoglou and S. Lalkovski and Li, \{H. -J.\} and G. Pasqualato and Pedersen, \{L. G.\} and S. Pietri and D. Ralet and E. Sahin and S. Siem and S{\"o}derstr{\"o}m, \{P. -A.\} and C. Theisen and T. Tornyi",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2026.",

year = "2026",

month = mar,

day = "2",

doi = "10.1140/epja/s10050-025-01782-4",

language = "English",

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Heines, JS, Modamio, V, Görgen, A, Korten, W, Clément, E, Dudouet, J, Lemasson, A, Ljungvall, J, Allmond, JM, Rodríguez, TR, Bruce, AM, Doherty, DT, Esmaylzadeh, A, Gamba, ER, Gerl, J, Georgiev, G, Knafla, L, Koseoglou, P, Lalkovski, S, Li, H-J, Pasqualato, G, Pedersen, LG, Pietri, S, Ralet, D, Sahin, E, Siem, S, Söderström, P-A, Theisen, C & Tornyi, T 2026, 'Triaxiality of neutron-rich ruthenium nuclei studied by lifetime measurements', The European Physical Journal A - Hadrons and Nuclei, vol. 62, no. 3, 38. https://doi.org/10.1140/epja/s10050-025-01782-4

TY - JOUR

T1 - Triaxiality of neutron-rich ruthenium nuclei studied by lifetime measurements

AU - Heines, J. S.

AU - Modamio, V.

AU - Görgen, A.

AU - Korten, W.

AU - Clément, E.

AU - Dudouet, J.

AU - Lemasson, A.

AU - Ljungvall, J.

AU - Allmond, J. M.

AU - Rodríguez, T. R.

AU - Bruce, A. M.

AU - Doherty, D. T.

AU - Esmaylzadeh, A.

AU - Gamba, E. R.

AU - Gerl, J.

AU - Georgiev, G.

AU - Knafla, L.

AU - Koseoglou, P.

AU - Lalkovski, S.

AU - Li, H. -J.

AU - Pasqualato, G.

AU - Pedersen, L. G.

AU - Pietri, S.

AU - Ralet, D.

AU - Sahin, E.

AU - Siem, S.

AU - Söderström, P. -A.

AU - Theisen, C.

AU - Tornyi, T.

PY - 2026/3/2

Y1 - 2026/3/2

N2 - The breaking of axial symmetry in nuclei enables otherwise precluded behaviours, making it an interesting phenomenon to study. Experimental fingerprints such as very low-lying 22+ states suggest pronounced triaxial deformation for the neutron-rich ruthenium isotopes. Nevertheless, theoretical calculations differ in the description of the triaxial deformation and its evolution with neutron number, making experimental data crucial to understanding it. We investigated the evolution of the degree of triaxiality and γ rigidity in neutron-rich ruthenium isotopes by measuring lifetimes of excited states in 108-112Ru with the recoil distance Doppler-shift method. The experiment was carried out at the Grand Accélérateur National d’Ions Lourds using the Advanced Gamma Tracking Array coupled to the Variable Mode Spectrometer. We obtained B(E2) values for 29 transitions in the studied nuclei and compared them with fully microscopic symmetry conserving configuration mixing calculations, and phenomenological generalized triaxial rotor and triaxial particle-rotor models. The models generally reproduce the measured transition strengths, and show an increase in triaxiality with neutron number, reaching near maximum triaxiality in 112Ru. The results are consistent with a transition from γ soft to γ rigid motion as the neutron number increases.

AB - The breaking of axial symmetry in nuclei enables otherwise precluded behaviours, making it an interesting phenomenon to study. Experimental fingerprints such as very low-lying 22+ states suggest pronounced triaxial deformation for the neutron-rich ruthenium isotopes. Nevertheless, theoretical calculations differ in the description of the triaxial deformation and its evolution with neutron number, making experimental data crucial to understanding it. We investigated the evolution of the degree of triaxiality and γ rigidity in neutron-rich ruthenium isotopes by measuring lifetimes of excited states in 108-112Ru with the recoil distance Doppler-shift method. The experiment was carried out at the Grand Accélérateur National d’Ions Lourds using the Advanced Gamma Tracking Array coupled to the Variable Mode Spectrometer. We obtained B(E2) values for 29 transitions in the studied nuclei and compared them with fully microscopic symmetry conserving configuration mixing calculations, and phenomenological generalized triaxial rotor and triaxial particle-rotor models. The models generally reproduce the measured transition strengths, and show an increase in triaxiality with neutron number, reaching near maximum triaxiality in 112Ru. The results are consistent with a transition from γ soft to γ rigid motion as the neutron number increases.

UR - https://www.scopus.com/pages/publications/105031712824

U2 - 10.1140/epja/s10050-025-01782-4

DO - 10.1140/epja/s10050-025-01782-4

M3 - Article

SN - 1434-6001

VL - 62

JO - The European Physical Journal A - Hadrons and Nuclei

JF - The European Physical Journal A - Hadrons and Nuclei

IS - 3

M1 - 38

ER -

Triaxiality of neutron-rich ruthenium nuclei studied by lifetime measurements

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