The 32Si(3He,d) 33P reaction was studied in inverse kinematics at 6.3 MeV/u. States in 33P corresponding to the proton 1s-0d single-particle orbitals were identified up to ≈ 4.5 MeV in excitation energy. The (3He,d) spectroscopic factors were determined from distorted-wave Born approximation calculations. When combined with complementary neutron-adding data, the 1s-0d proton vacancies in the 32Si ground state were extracted. In conjunction with a reanalysis of data from previous single-particle measurements, the trends in proton and neutron vacancy were explored across the 28,30,32,34Si isotopes. Both proton and neutron vacancy data show gradual changes in their occupancies. The proton 1s1/2 orbitals in 32Si and 34Si are both consistent with being empty. The ground-state nucleon distributions are described by shell-model calculations constrained to the 1s-0d model space.
Valence 1s-0d proton vacancy of the 32Si ground state
Chen J.;Recchia F.;Santamaria C.;
2025
Abstract
The 32Si(3He,d) 33P reaction was studied in inverse kinematics at 6.3 MeV/u. States in 33P corresponding to the proton 1s-0d single-particle orbitals were identified up to ≈ 4.5 MeV in excitation energy. The (3He,d) spectroscopic factors were determined from distorted-wave Born approximation calculations. When combined with complementary neutron-adding data, the 1s-0d proton vacancies in the 32Si ground state were extracted. In conjunction with a reanalysis of data from previous single-particle measurements, the trends in proton and neutron vacancy were explored across the 28,30,32,34Si isotopes. Both proton and neutron vacancy data show gradual changes in their occupancies. The proton 1s1/2 orbitals in 32Si and 34Si are both consistent with being empty. The ground-state nucleon distributions are described by shell-model calculations constrained to the 1s-0d model space.
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