Reorientation-effect measurement of the first 2+ state in 12C: confirmation of oblate deformation

Abstract

A Coulomb-excitation reorientation-effect measurement using the TIGRESS γ-ray spectrometer at the TRIUMF/ISAC II facility has permitted the first determination of the 2+1 E2 2+1 diagonal matrix element in 12C from particle-γ coincidence data. Required state-of-the-art no-core shell model calculations of the nuclear polarizability for the ground and first-excited (2+1) states in 12C using chiral NN N4LO500 and NN+3NF350 interactions have been performed. Consistent predictions show a larger polarizability than previously anticipated. The polarizability of the 2+1 state is introduced into the current and previous Coulomb-excitation reorientation-effect analysis of 12C. Spectroscopic quadrupole moments of Q_S(21+)= +0.053(44) eb and Q_S(21+)= +0.08(3) eb are determined, respectively, yielding a weighted average of Q_S(21+)= +0.071(25) eb, in agreement with recent ab initio calculations. The present measurement confirms that the 2+1 state of 12C is oblate and emphasizes the important role played by the nuclear polarizability in Coulomb-excitation studies of light nuclei.