Your search keyword '"K.K. Zheng"' showing total 6 results

1. First observation of excited states in 120La and its impact on the shape evolution in the A ≈ 120 mass region

Author

P.M. Jodidar, C.M. Petrache, B.F. Lv, E.A. Lawrie, A. Astier, S. Guo, K.K. Zheng, K. Auranen, A.D. Briscoe, T. Grahn, P.T. Greenlees, A. Illana, H. Joukainen, R. Julin, J. Louko, M. Luoma, H. Jutila, J. Ojala, J. Pakarinen, A.M. Plaza, P. Rahkila, P. Ruotsalainen, J. Sarén, A. Tolosa-Delgado, J. Uusitalo, G. Zimba, I. Kuti, A. Krakó, C. Andreoiu, D.T. Joss, R.D. Page, E.A. Cederlöf, and A. Ertoprak

Subjects

Nuclear reaction: 58Ni(64Zn,pn)120La, E= 255 MeV, Measured γγγ-coincidences, Eγ, Iγ, Angular correlations, Physics, QC1-999

Abstract

Excited states have been observed for the first time in the very neutron-deficient odd-odd nucleus 57120La63. The observed γ rays have been assigned based on coincidences with lanthanum X rays measured with the JUROGAM 3 array and with A=120 fusion-evaporation residues measured with the MARA separator. The observed γ rays form a rotational band which decays to the ground state via a cascade of four low-energy transitions. Based on the systematic comparisons with the heavier odd-odd La isotopes we assign spin-parity 4+ to the ground state and a πh11/2⊗νh11/2 configuration to the rotational band. The nuclear shape has been investigated by the cranked Nilsson-Strutinsky model. Two quasiparticle plus triaxial rotor model calculations including the np interaction nicely reproduce the spin of the inversion between the even- and odd-spin cascades of E2 transitions, giving credit to the np interaction as an important parameter responsible for the mechanism inducing the inversion. The position of the Fermi levels, in particular for neutrons, also has a strong impact on the observed inversion in the chain of lanthanum nuclei.

Published

2024

2. Generalized molecule-like structure in atomic nuclei

Author

F.F. Zeng, K.K. Zheng, M.L. Liu, and H.L. Wang

Subjects

Molecular-cluster state, Non-linear Schrödinger breather, Soliton, Electric dipole moment, Physics, QC1-999

Abstract

Starting from a |ϕ|4 field theory with universal pn interacting angular and distance coordinates (θ,r) to depict nuclear long-range correlations, we have derived a cubic Schrödinger equation for NpNn pn interacting virtual bosons, which are believed to dominate the generic evolution of nuclear structure from spherical multi-nucleon shell-model states to deformed collective rotational states. It is shown that two-soliton solution in θ space manifests two opposite pn-type Ising-like chains existing in ground states and their gradual alignment responsible for nuclear rotational excitations. Of particular prominence is two-soliton solution with respect to r: the mutual relative motion of valence protons and neutrons around valence-nucleon mass centers considered as the dynamic equilibrium positions of a non-linear Schrödinger breather. And the resulting non-vanishing root mean square 〈r2〉 divides half the valence nucleons belonging to a chain into four local mass centers and proposes two chain-corresponding molecule-like tetrads outside inert cores pairwise hidden in ground states. Such solitons turn out to be an analogue of opposite axion fluids around a local mass center in the galactic dark-matter halo outside the soliton core (Garnier et al. (2021) [67]) and the present study facilitates making the latter more clear. The generalized molecule-like structure arouses a requisite to the addition of cluster-interior and cluster-to-core electric dipole moments in particular to pear-shaped nuclei, whose variants Schiff moments play an important role in measuring diamagnetic atomic electric dipole moments and therefore understanding CP-violating new physics beyond the standard model. We put additional parts in evidence by befitting the NpNn scheme verified already by electric quadrupole moments in same nuclei.

Published

2024

3. Evidence against the wobbling nature of low-spin bands in 135Pr

Author

B.F. Lv, C.M. Petrache, E.A. Lawrie, S. Guo, A. Astier, K.K. Zheng, H.J. Ong, J.G. Wang, X.H. Zhou, Z.Y. Sun, P.T. Greenlees, H. Badran, T. Calverley, D.M. Cox, T. Grahn, J. Hilton, R. Julin, S. Juutinen, J. Konki, J. Pakarinen, P. Papadakis, J. Partanen, P. Rahkila, P. Ruotsalainen, M. Sandzelius, J. Sarén, C. Scholey, J. Sorri, S. Stolze, J. Uusitalo, B. Cederwall, A. Ertoprak, H. Liu, I. Kuti, J. Timár, A. Tucholski, J. Srebrny, and C. Andreoiu

Subjects

γγγ-coincidences, Angular correlations, Particle rotor model, Wobbling bands, Physics, QC1-999

Abstract

The electromagnetic character of the ΔI=1 transitions connecting the 1- to 0-phonon and the 2- to 1-phonon wobbling bands should be dominated by an E2 component, due to the collective motion of the entire nuclear charge. In the present work it is shown, based on combined angular correlation and linear polarization measurements, that the mixing ratios of all analyzed connecting transitions between low-lying bands in 135Pr interpreted as 0-, 1-, and 2-phonon wobbling bands, have absolute values smaller than one. This indicates predominant M1 magnetic character, which is incompatible with the proposed wobbling nature. All experimental observables are instead in good agreement with quasiparticle-plus-triaxial-rotor model calculations, which describe the bands as resulting from a rapid re-alignment of the total angular momentum from the short to the intermediate nuclear axis.

Published

2022

4. Evidence of oblate-prolate shape coexistence in the strongly-deformed nucleus 119Cs

Author

K.K. Zheng, C.M. Petrache, Z.H. Zhang, P.W. Zhao, Y.K. Wang, A. Astier, B.F. Lv, P.T. Greenlees, T. Grahn, R. Julin, S. Juutinen, M. Luoma, J. Ojala, J. Pakarinen, J. Partanen, P. Rahkila, P. Ruotsalainen, M. Sandzelius, J. Sarén, H. Tann, J. Uusitalo, G. Zimba, B. Cederwall, Ö. Aktas, A. Ertoprak, W. Zhang, S. Guo, M.L. Liu, I. Kuti, B.M. Nyakó, D. Sohler, J. Timár, C. Andreoiu, M. Doncel, D.T. Joss, and R.D. Page

Subjects

Nuclear reaction:58Ni(64Zn,3p)119Cs, Measured γγγ-coincidences, Angular correlations, Linear polarization, Model calculation, Oblate-prolate coexistence, Physics, QC1-999

Abstract

Prolate-oblate shape coexistence close to the ground state in the strongly-deformed proton-rich A≈120 nuclei is reported for the first time. One of the four reported bands in 119Cs, built on a 11/2− state at 670 keV, consists of nearly degenerate signature partners, and has properties which unequivocally indicate the strongly-coupled πh11/2[505]11/2− configuration associated with oblate shape. Together with the decoupled πh11/2[541]3/2− band built on the 11/2− prolate state at 110 keV, for which a half-life of T1/2=55(5)μs has been measured, the new bands bring evidence of shape coexistence at low spin in the proton-rich strongly deformed A≈120 nuclei, a phenomenon predicted since long time, but not yet observed. Calculations using the particle-number conserving cranked shell model and two dimensional tilted axis cranking covariant density functional theory support and well reproduce the observed oblate and prolate coexisting low-energy states in 119Cs.

Published

2021

5. Diversity of shapes and rotations in the γ-soft 130Ba nucleus: First observation of a t-band in the A = 130 mass region

Author

C.M. Petrache, P.M. Walker, S. Guo, Q.B. Chen, S. Frauendorf, Y.X. Liu, R.A. Wyss, D. Mengoni, Y.H. Qiang, A. Astier, E. Dupont, R. Li, B.F. Lv, K.K. Zheng, D. Bazzacco, A. Boso, A. Goasduff, F. Recchia, D. Testov, F. Galtarossa, G. Jaworski, D.R. Napoli, S. Riccetto, M. Siciliano, J.J. Valiente-Dobon, M.L. Liu, X.H. Zhou, J.G. Wang, C. Andreoiu, F.H. Garcia, K. Ortner, K. Whitmore, T. Bäck, B. Cederwall, E.A. Lawrie, I. Kuti, D. Sohler, J. Timár, T. Marchlewski, J. Srebrny, and A. Tucholski

Subjects

Physics, QC1-999

Abstract

Several new bands have been identified in 130Ba, among which there is one with band-head spin 8+. Its properties are in agreement with the Fermi-aligned νh11/22, 7/2−[523]⊗9/2−[514] Nilsson configuration. This is the first observation of a two-quasiparticle t-band in the A=130 mass region. The t-band is fed by a dipole band involving two additional h11/2 protons. The odd-spin partners of the proton and neutron S-bands and the ground-state band at high spins are also newly identified. The observed bands are discussed using several theoretical models, total Routhians surfaces (TRS), tilted axis cranking (TAC), particle rotor model (PRM) and projected shell model (PSM), which strongly suggest the coexistence of prolate and oblate shapes polarized by rotation aligned two-proton and two-neutron configurations, as well as prolate collective rotations around axes with different orientations. With the new results, 130Ba presents one of the best and most complete sets of collective excitations that a γ-soft nucleus can manifest at medium and high spins, revealing a diversity of shapes and rotations for the nuclei in the A=130 mass region. Keywords: Nuclear structure, Collective rotations, Shape coexistence, Particle rotor model, Projected shell model, Tiltid axis cranking

Published

2019

6. Evidence of oblate-prolate shape coexistence in the strongly-deformed nucleus 119Cs

Author

T. Grahn, Bo Cederwall, D. Sohler, G. Zimba, K.K. Zheng, Paul Greenlees, Jan Sarén, C. M. Petrache, W.Q. Zhang, S. Juutinen, R. Julin, R. D. Page, M. L. Liu, István Kuti, M. Doncel, Pengwei Zhao, H. Tann, M. Luoma, A. Ertoprak, B. F. Lv, J. Ojala, Jari Partanen, Janne Pakarinen, Y.K. Wang, O. Aktas, B. M. Nyakó, Song Guo, János Timár, Z. H. Zhang, D. T. Joss, Corina Andreoiu, A. Astier, Panu Ruotsalainen, Juha Uusitalo, P. Rahkila, Mikael Sandzelius, Laboratoire de Physique des 2 Infinis Irène Joliot-Curie (IJCLab), and Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)

Subjects

58Ni(64Zn,3p)119Cs, Nuclear reaction, Nuclear and High Energy Physics, QC1-999, Nuclear Theory, Model calculation, coincidences, [PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex], 01 natural sciences, Molecular physics, Measured γγγ-coincidences, cesium, 0103 physical sciences, medicine, Nuclear reaction:58Ni(64Zn,3p)119Cs, Zn, Covariant transformation, Cs, 010306 general physics, Spin (physics), Ni(, Physics, Linear polarization, 010308 nuclear & particles physics, Degenerate energy levels, 3p), Oblate-prolate coexistence, medicine.anatomical_structure, Angular correlations, Density functional theory, ydinfysiikka, Ground state, Measured, Nucleus

Abstract

International audience; Prolate-oblate shape coexistence close to the ground state in the strongly-deformed proton-rich A≈120 nuclei is reported for the first time. One of the four reported bands in 119Cs, built on a 11/2− state at 670 keV, consists of nearly degenerate signature partners, and has properties which unequivocally indicate the strongly-coupled πh11/2[505]11/2− configuration associated with oblate shape. Together with the decoupled πh11/2[541]3/2− band built on the 11/2− prolate state at 110 keV, for which a half-life of T1/2=55(5)μs has been measured, the new bands bring evidence of shape coexistence at low spin in the proton-rich strongly deformed A≈120 nuclei, a phenomenon predicted since long time, but not yet observed. Calculations using the particle-number conserving cranked shell model and two dimensional tilted axis cranking covariant density functional theory support and well reproduce the observed oblate and prolate coexisting low-energy states in 119Cs.

Published

2021