Coulomb excitation of Sr 80 and the limits of the N ≈ Z ≈ 40 island of deformation

R. Russell; J. Heery; J. Henderson; R. Wadsworth; K. Kaneko; N. Shimizu; T. Mizusaki; Y. Sun; C. Andreoiu; D. W. Annen; A. A. Avaa; G. C. Ball; V. Bildstein; S. Buck; C. Cousins; A. B. Garnsworthy; S. A. Gillespie; B. Greaves; A. Grimes; G. Hackman; R. O. Hughes; D. G. Jenkins; T. M. Kowalewski; M. S. Martin; C. Müller-Gatermann; J. R. Murias; S. Murillo Morales; S. Pascu; D. M. Rhodes; J. Smallcombe; P. Spagnoletti; C. E. Svensson; B. Wallis; J. Williams; C. Y. Wu; D. Yates

doi:10.1103/t91y-l6rf

Back

Coulomb excitation of Sr 80 and the limits of the N ≈ Z ≈ 40 island of deformation

Journal article

Open access

Peer reviewed

Coulomb excitation of Sr 80 and the limits of the N ≈ Z ≈ 40 island of deformation

R. Russell, J. Heery, J. Henderson, R. Wadsworth, K. Kaneko, N. Shimizu, T. Mizusaki, Y. Sun, C. Andreoiu, D. W. Annen, …

Physical Review C, Vol.112(1), 014309

07/2025

DOI: https://doi.org/10.1103/t91y-l6rf

Abstract

The region of N Z 40 has long been associated with strongly deformed nuclear configurations. The presence of this strong deformation was recently confirmed through lifetime measurements in N Z Sr and Zr nuclei. Theoretically, however, these nuclei present a challenge due to the vast valence space required to incorporate all necessary orbitals. Recent state-of-the-art predictions indicate a near axial prolate deformation for N = Z and N = Z + 2 nuclei between N = Z = 36 and N = Z = 40. In this work we investigate the shores of this island of deformation through a sub-barrier Coulomb excitation study of the N = Z +4 nucleus, 80Sr. Extracting a spectroscopic quadrupole moment of Qs(2+1 ) = 0.5+0.8-0.9 eb, we find that 80Sr is inconsistent with significant axial prolate deformation with a significance of 1.5 sigma. This result, albeit with a large uncertainty, indicates that the predicted region of strong prolate deformation around N = Z = 40 is tightly constrained to the quartet of nuclei: 76,78Sr and 78,80Zr.

Files and links (1)

pdf

80Sr_Coulex_PRC_Accepted1.85 MBDownload View

Author's Accepted Manuscript CC BY V4.0, Open Access

Metrics

21 Record Views

Details

Title: Coulomb excitation of Sr 80 and the limits of the N ≈ Z ≈ 40 island of deformation
Creators: R. Russell - University of Surrey, School of Maths and Physics
J. Heery - University of Surrey, School of Maths and Physics
J. Henderson - University of Surrey, School of Maths and Physics
R. Wadsworth - University of York
K. Kaneko - Kyushu Sangyo University
N. Shimizu - University of Tsukuba
T. Mizusaki - Senshu University
Y. Sun - Shanghai Jiao Tong University
C. Andreoiu - Simon Fraser University
D. W. Annen - Simon Fraser University
A. A. Avaa - TRIUMF
G. C. Ball - TRIUMF
V. Bildstein - University of Guelph
S. Buck - University of Guelph
C. Cousins - University of Surrey, School of Maths and Physics
A. B. Garnsworthy - TRIUMF
S. A. Gillespie - Michigan State University
B. Greaves - University of Guelph
A. Grimes - TRIUMF
G. Hackman - TRIUMF
R. O. Hughes - Lawrence Livermore National Laboratory
D. G. Jenkins - University of York
T. M. Kowalewski - University of North Carolina at Chapel Hill
M. S. Martin - Simon Fraser University
C. Müller-Gatermann
J. R. Murias - TRIUMF
S. Murillo Morales - TRIUMF
S. Pascu - University of Surrey, School of Maths and Physics
D. M. Rhodes - TRIUMF
J. Smallcombe - Japan Atomic Energy Agency
P. Spagnoletti - Simon Fraser University
C. E. Svensson - University of Guelph
B. Wallis
J. Williams - TRIUMF
C. Y. Wu - Lawrence Livermore National Laboratory
D. Yates - University of British Columbia
Publication Details: Physical Review C, Vol.112(1), 014309
Publisher: AMER PHYSICAL SOC; COLLEGE PK
Number of pages: 7
Publication Date: 07/2025
Grant note: UKRI Future Leaders Fellowship: MR/T022264/1 Science and Technologies Facilities Council (STFC): ST/V001108/1, ST/P003885, ST/V001035 Natural Sciences and Engineering Research Council of Canada (NSERC)Canada Foundation for InnovationBritish Columbia Knowledge Development FundNational Research Council of CanadaU.S. Department of Energy, Office of Science, Office of Nuclear Physics: DE-AC02-06CH11357, DE-AC52-07NA27344 U.S. Department of Energy: DE-AC52-07NA27344
The authors thank the beam-delivery team at TRIUMF-ISAC for providing the beams which were used in the present work. R.R. thanks J. Russell for useful discussions. Work at the University of Surrey was supported under UKRI Future Leaders Fellowship Grant No. MR/T022264/1. Work at the University of Surrey and University of York was supported by the Science and Technologies Facilities Council (STFC) under Grants No. ST/V001108/1 (Surrey) , No. ST/P003885 (York) , and No. ST/V001035 (York) . This work has been supported by the Natural Sciences and Engineering Research Council of Canada (NSERC) , The Canada Foundation for Innovation, and the British Columbia Knowledge Development Fund. TRIUMF receives federal funding via a contribution agreement through the National Research Council of Canada. Supported by the U.S. Department of Energy, Office of Science, Office of Nuclear Physics under Contract No. DE-AC02-06CH11357. Work at Lawrence Livermore National Laboratory was performed under the auspices of the U.S. Department of Energy under Contract No. DE-AC52-07NA27344.
Identifiers: 991007726102346; WOS:001530290200007
Academic Unit: School of Maths and Physics
Language: English
Resource Type: Journal article

Coulomb excitation of Sr 80 and the limits of the N ≈ Z ≈ 40 island of deformation

Abstract

Files and links (1)

Metrics

Details

Usage Policy