Physics Letters B (Oct 2023)

Precise determination of quadrupole and hexadecapole deformation parameters of the sd-shell nucleus, 28Si

  • Y.K. Gupta,
  • V.B. Katariya,
  • G.K. Prajapati,
  • K. Hagino,
  • D. Patel,
  • V. Ranga,
  • U. Garg,
  • L.S. Danu,
  • A. Pal,
  • B.N. Joshi,
  • S. Dubey,
  • V.V. Desai,
  • S. Panwar,
  • N. Kumar,
  • S. Mukhopadhyay,
  • Pawan Singh,
  • N. Sirswal,
  • R. Sariyal,
  • I. Mazumdar,
  • B.V. John

Journal volume & issue
Vol. 845
p. 138120

Abstract

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Quasi-elastic (QEL) scattering measurements have been performed using a 28Si projectile off a 90Zr target at energies around the Coulomb barrier. A Bayesian analysis within the framework of coupled channels (CC) calculations is performed in a large parameter space of quadrupole and hexadecapole deformations (β2 and β4) of 28Si. Our results unambiguously show that 28Si is an oblate shaped nucleus with β2=-0.38±0.01 which is in excellent agreement with results from electromagnetic probes. The sign and magnitude of quadrupole deformation along with a precise value of hexadecapole deformation (β4=+0.03±0.01) of 28Si have been determined for the first time using QEL scattering. A remarkable agreement is obtained between the experimental and calculated β4 values of 28Si based on Skyrme-Hartree-Fock method. The present results demonstrate the strong sensitivity of the quasi-elastic scattering to the sign and magnitude to the ground state deformation parameters, thus affirming its suitability to be used for rare exotic nuclei using low intensity RIBs.