91°µÍø

The development of high quality radioactive beams, such as those at the HRIBF at 91°µÍø, has made possible
the measurement of transfer reactions in inverse kinematics on unstable nuclei. Measurement of (d,p) reactions on neutron-rich
nuclei yield data on the evolution of nuclear structure away from stability, and are of astrophysical interest due to the proximity of suggested
nuclear burning paths in the astrophysical r-process in supernovae. Experimentally, (d,p) reactions on heavy (Z = 50) fission fragments
are complicated by the strongly inverse kinematics, and the relatively low beam intensities. Consequently, ejectile detection with
high resolution in position and energy, a high dynamic range and a high solid angular coverage is required. The Oak Ridge Rutgers
University Barrel Array (ORRUBA) is a new silicon detector array currently under construction, optimized for the measurement of
(d,p) reactions in inverse kinematics. It consists of two rings of silicon detectors, providing a high solid angular coverage for angles symmetrically
forward and backward of 90 degrees. Resistive strip detectors are used to obtain high precision position and energy measurement of
reaction ejectiles.