Identifying the spin-trapped character of the 32Si isomeric state

J. Williams; G. Hackman; K. Starosta; R. S. Lubna; Priyanka Choudhary; P. C. Srivastava; C. Andreoiu; D. Annen; H. Asch; M. D. H. K. G. Badanage; G. C. Ball; M. Beuschlein; H. Bidaman; V. Bildstein; R. Coleman; A. B. Garnsworthy; B. Greaves; G. Leckenby; V. Karayonchev; M. S. Martin; C. Natzke; C. M. Petrache; A. Radich; E. Raleigh-Smith; D. Rhodes; R. Russell; M. Satrazani; P. Spagnoletti; C. E. Svensson; D. Tam; F. Wu; D. Yates; Z. Yu

doi:10.1103/PhysRevC.108.L051305

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Identifying the spin-trapped character of the 32Si isomeric state

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Identifying the spin-trapped character of the 32Si isomeric state

J. Williams, G. Hackman, K. Starosta, R. S. Lubna, Priyanka Choudhary, P. C. Srivastava, C. Andreoiu, D. Annen, H. Asch, M. D. H. K. G. Badanage, …

Physical review. C, Vol.108(5), 051305

27/11/2023

DOI: https://doi.org/10.1103/PhysRevC.108.L051305

Abstract

Physical Sciences

Physics

Physics, Nuclear

Science & Technology

The properties of a nanosecond isomer in 32Si, disputed in previous studies, depend on the evolution of proton and neutron shell gaps near the island of inversion. We have placed the isomer at 5505.2(2) keV with J7` = 5-, decaying primarily via an E3 transition to the 2+1 state. The E3 strength of 0.0841(10) W.u. is unusually small and suggests that this isomer is dominated by the (vd3/2)-1 circle times (vf7/2)1 configuration, which is sensitive to the N = 20 shell gap. A newly observed 4+1 state is placed at 5881.4(13) keV; its energy is enhanced by the Z = 14 subshell closure. This indicates that the isomer is located in a yrast trap, a feature rarely seen at low mass numbers.

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Title: Identifying the spin-trapped character of the 32Si isomeric state
Creators: J. Williams - TRIUMF
G. Hackman - TRIUMF
K. Starosta - Simon Fraser University
R. S. Lubna - Michigan State University
Priyanka Choudhary - Indian Institute of Technology Roorkee
P. C. Srivastava - Indian Institute of Technology Roorkee
C. Andreoiu - Simon Fraser University
D. Annen - Simon Fraser University
H. Asch - Simon Fraser University
M. D. H. K. G. Badanage - Simon Fraser University
G. C. Ball - TRIUMF
M. Beuschlein - Tech Univ Darmstadt, Dept Phys, Inst Nucl Phys, Schlossgartenstr 9, D-64289 Darmstadt, Germany
H. Bidaman - University of Guelph
V. Bildstein - University of Guelph
R. Coleman - University of Guelph
A. B. Garnsworthy - TRIUMF
B. Greaves - University of Guelph
G. Leckenby - TRIUMF
V. Karayonchev - TRIUMF
M. S. Martin - Simon Fraser University
C. Natzke - TRIUMF
C. M. Petrache - Univ Paris Saclay, IJCLab, CNRS IN2P3, F-91405 Orsay, France
A. Radich - University of Guelph
E. Raleigh-Smith - TRIUMF
D. Rhodes - TRIUMF
R. Russell - Univ Surrey, Guildford GU2 7XH, England
M. Satrazani - University of Liverpool
P. Spagnoletti - Simon Fraser University
C. E. Svensson - University of Guelph
D. Tam - Simon Fraser University
F. Wu - Simon Fraser University
D. Yates - TRIUMF
Z. Yu - Simon Fraser University
Publication Details: Physical review. C, Vol.108(5), 051305
Publisher: Amer Physical Soc
Number of pages: 6
Date published: 27/11/2023
Grant note: Canadian Foundation for Innovation; Canada Foundation for Innovation DE-FG02-93ER40789; DE-SC0009883 / U.S. Department of Energy; United States Department of Energy (DOE) British Columbia Knowledge Development Fund Natural Sciences and Engineering Research Council of Canada; Natural Sciences and Engineering Research Council of Canada (NSERC); CGIAR CRG/2022/005167 / SERB (India); Department of Science & Technology (India); Science Engineering Research Board (SERB), India DE-SC0020451 / U.S. Department of Energy, Of-fice of Science, Office of Nuclear Physics; United States Department of Energy (DOE) National Research Council of Canada
Identifiers: 99928695402346
Academic Unit: School of Maths and Physics
Language: English
Resource Type: Journal article

Identifying the spin-trapped character of the 32Si isomeric state

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