Spectroscopic information on 36Cl from the (d,p) reaction

Abstract

Abstract The reaction 35Cl(d, p)36Cl was studied at deuteron energy 12.3 MeV using a multi-angle magnetic spectrograph with resolving power E ΔE ≈2000 . Precise excitation energies of 77 states in 36Cl up to 7 MeV are presented. The level energies of some states were measured with a precision of 70–80 eV; several new states were found. Angular distributions of proton groups corresponding to 51 states in 36Cl were analysed using DWBA calculations. Transferred orbital angular momenta and absolute values of spectroscopic factors were deduced. Spectroscopic factors for 36 states are given for the first time. The substantial parts of single-particle strengths for If and 2p orbits are exhausted by the observed l = 3 and l = 1 transitions. Spectroscopic strengths for the positive-parity states show that 2s and 1d orbits in the ground state of 35Cl are much more empty than should follow from simple-shell-model or from calculations made in the full space of sd-shell-model wave functions by Wildenthal et al.