Nuclear simulation and radiation physics investigations of the target station of the European Spallation Neutron Source

The European Spallation Neutron Source (ESS) delivers high-intensity pulsed particle beams with 5-MW average beam power at 1.3-GeV incident proton ene rgy. This causes sophisticated demands on material and geometry choices and a very careful optimization of the whole target system. Therefore, complex and detailed particle transport models and computer code systems have been developed and used to study the nuclear assessment of the ESS target syste m. The purpose here is to describe the methods of calculation mainly based on the Monte Carlo code to show the performance of the ESS target station. The interesting results of the simulations of the mercury target system are as follows: time-dependent neutron flux densities, energy deposition and h eating, radioactivity and afterheat, materials damage by radiation, and hig h-energy source shielding. The results are discussed in great detail. The v alidity of codes and models, further requirements to improve the methods of calculation, and the status of running and planned experiments are given a lso.