Spectroscopy of 11Be from the 10Be(d,p) reaction measured in inverse kinematics by the AT-TPC in SOLARIS

Abstract

The spectroscopy of 11Be is explored using the 10Be(d,p)11Be transfer reaction performed in inverse kinematics at 9.6\,/u using the Active Target Time Projection Chamber (AT-TPC) inside the SOLARIS solenoid. This experiment is the first attempt at coupling the AT-TPC with SOLARIS to perform a high luminosity transfer reaction measurement without compromising excitation energy and scattering angle resolutions. The angular momentum transfer for states up to 3.40\, are determined from distorted-wave Born approximation analysis of the measured angular distributions, from which the corresponding spectroscopic factors are deduced. These factors are compared with those from various shell model interactions, and those for the 3.40\, state are consistent with a positive parity assignment. Recent ab initio no-core configuration interaction (NCCI) calculations with various nucleon-nucleon interactions are presented for the low-lying positive parity states of 11Be. The excitation energies produced using the Daejeon16 interaction are in good agreement with those found from both this experiment and the literature, thus supporting a positive parity assignment. The 3.40\, state, if assigned a tentative Jπ=3/2+, would then correspond to the second excited state of the KP=1/2+ one-neutron halo ground state rotational band also predicted from such NCCI calculations.