Simulation of beam induced lattice defects of diamond detectors using FLUKA

Diamond is more and more used as a detector material for particle detection. One argument for diamond is its higher radiation hardness compared to silicon. Since various particles have different potentials for radiation damage at different energies, a scaling rule is necessary for the prediction of radiation damage. For silicon detectors the non-ionising energy loss (NIEL) is used for scaling the effects of different particles. A different way of predicting the radiation damage is based on the Norget-Robinson-Torrens theorem to predict the number of displacements per atom (DPA). This provides a better scaling rule since recombination effects are taken into account. This model is implemented in the FLUKA Monte Carlo simulations package for protons, neutrons and pions. We compare simulation results of NIEL and DPA for diamond and silicon material exposed to protons, neutrons and pions for a wide range of energies.