Monte-Carlo simulations of neutron shielding for the ATLAS forward region
Author
Year
2000
Scientific journal
Nucl.Instr. Meth. in Phys. Res. A 452 (2000) 458-469
Abstract
The effectiveness of different types of neutron shielding for the ATLAS forward region has been studied by means of
Monte-Carlo simulations and compared with the results of an experiment performed at the CERN PS. The simulation
code is based on GEANT, FLUKA, MICAP and GAMLIB. GAMLIB is a new library including processes with c-rays
produced in (n, c), (n, n@c) neutron reactions and is interfaced to the MICAP code. The effectiveness of different types of
shielding against neutrons and c-rays, composed from different types of material, such as pure polyethylene, borated
polyethylene, lithium-filled polyethylene, lead and iron, were compared. The results from Monte-Carlo simulations were
compared to the results obtained from the experiment. The simulation results reproduce the experimental data well. This
agreement supports the correctness of the simulation code used to describe the generation, spreading and absorption of
neutrons (up to thermal energies) and c-rays in the shielding materials. The simulation code provides a powerful tool
which allows the extrapolation to the ATLAS forward region of the shielding concept tested at the CERN PS. Based on
the results of Monte-Carlo simulations, a comparison between various proposed types of neutron and c-rays shielding
for the ATLAS forward region is presented.
Projects
Cite article as:
I. Štekl, S. Pospíšil, . et al., "Monte-Carlo simulations of neutron shielding for the ATLAS forward region", Nucl.Instr. Meth. in Phys. Res. A 452 (2000) 458-469 (2000)