Compton-suppression and add-back techniques for the highly segmented TIGRESS HPGe clover detector array

Methods to optimize the performance of the TRIUMF-ISAC Gamma-Ray Escape-Suppressed Spectrometer (TIGRESS), an array of 12 large-volume, 32-fold segmented HPGe clover detectors to be used at the ISAC-II radioactive ion beam facility, have been developed based on GEANT4 Monte Carlo simulations. These methods rely on the segmentation of the outer electrical contacts of the TIGRESS HPGe clovers, and on the 20-fold segmentation of the Compton-suppression shields. The clover segmentation is utilized to make event-by-event decisions as to whether the γγ-ray energy depositions in neighbouring crystals and clovers will be summed. The Compton suppressor segmentation is used to veto events selectively, and to reduce false suppression in experiments with high γγ-ray multiplicity. Procedures to determine the optimal techniques and configurations of the array for a particular experiment, dependent on the expected γγ-ray energies and multiplicities, and the velocity of the recoil ions, are presented.