Beta-decay study of the shape coexistence in <sup>98</sup>Zr

ORAL

Abstract










Anomalies in the systematics of nuclear properties challenge our understanding of the underlying nuclear structure. One such anomaly emerges in the Zr isotopic chain as a dramatic ground-state shape change, abruptly shifting from spherical into a deformed one at N=60. This research focuses on 98Zr which lies on the interface between spherical and deformed phases. While past research provided an over-all understanding of 98Zr's nuclear structure [1,2,3,4,5], most recent studies employing state-of-the-art theoretical models presented conflicting interpretations of its higher-lying bands [6,7].



A β-decay experiment was conducted at the TRIUMF-ISAC facility utilizing the 8π spectrometer to resolve these uncertainties. The obtained data allowed the determination of branching ratios for weak transitions, crucial for assigning band structures. Observing the key 155-keV 22+ → 03+ transition enabled the determination of its B(E2) value for the first time. Additionally, γ-γ angular correlation measurements allowed us to establish the 0+, 2+, and I = 1 natures for multiple newly observed and previously known (but not firmly assigned) states as well as mixing ratios. The new results revealed the collective character of certain key transitions, supporting the multiple shape coexistence interpretation provided by the framework of Monte Carlo Shell Model (MCSM). These results will be presented and discussed in relation to both MCSM and Interacting Boson Model with configuration mixing calculations.









Publication: [1] K. Heyde and John L. Wood, Rev. Mod. Phys. 83, 1467 (2011).
[2] T. Togashi, Y. Tsunoda, T. Otsuka, and N. Shimizu, Phys. Rev. Lett. 117, 172502 (2016).
[3] N. Gavrielov, A. Leviatan and F. Iachello, Phys. Rev. C 105, 014305 (2022).
[4] T. Kibedi, A.B. Garnsworthy, J.L. Wood, Prog. Part. Nucl. Phys., 123, 103930 (2022).
[5] P. E. Garrett, M. Zielinska, E. Clément, Prog. Part. Nucl. Phys. 124, 103931 (2022).
[6] P. Singh, W. Korten et al., Phys. Rev. Lett. 121, 192501 (2018).
[7] V. Karayonchev, J. Jolie et al., Phys. Rev. C 102, 064314 (2020).

Presenters

  • Konstantin R Mastakov

    • University of Guelph

Authors

  • Konstantin R Mastakov

    • University of Guelph

  • Paul E Garrett

    • Univ of Guelph

  • Bruno Olaizola

    • ISOLDE-EP, CERN
    • TRIUMF

  • Corina Andreoiu

    • Simon Fraser University
    • SFU (Simon Fraser University)

  • Gordon C Ball

    • TRIUMF

  • Peter C Bender

    • University of Massachusetts Lowell

  • Vinzenz Bildstein

    • Univ of Guelph
    • University of Guelph

  • David S Cross

    • Simon Fraser University

  • Hillary Dawkins

    • University of Guelph

  • Greg A Demand

    • University of Guelph

  • A. Diaz Varela

    • University of Guelph

  • Gatjang Deng

    • University of Guelph

  • Adam B Garnsworthy

    • TRIUMF

  • Greg Hackman

    • TRIUMF

  • Baharak Hadinia

    • University of Guelph

  • Alex T Laffoley

    • University of Guelph

  • Mohamad Moukaddam

    • IPHC, Strasbourg
    • TRIUMF

  • Jason Park

    • TRIUMF
    • IBS, Daejeon, CENS

  • Erin E Peters

    • U of Kentucky

  • Allison J Radich

    • Univ of Guelph

  • Mustafa M Rajabali

    • Tennessee Technological University

  • Evan T Rand

    • Atomic Energy Canada Ltd

  • Usman Rizwan

    • Simon Fraser University

  • Balraj Singh

    • McMaster Univ

  • Krzysztof Starosta

    • Simon Fraser University

  • Carl E Svensson

    • Univ of Guelph

  • Philip J Voss

    • Albion College

  • Z.-M. Wang

    • Simon Fraser University

  • John L Wood

    • Georgia Institute of Technology

  • Steven W Yates

    • University of Kentucky

  • Aaron Chester

    • Michigan State University