Simulation of neutrons produced by high-energy muons underground

Details Simulation of neutrons produced by high-energy muons underground Simulation of neutrons produced by high-energy muons underground

2008-10-09

arxiv.org/abs/0810.1682v2

Astropart.Phys.31:366-375,2009

Physics

High Energy Physics

High Energy Physics - Experiment

13 Pages, 11 Figures, 3 Tables. To appear in Astroparticle Physics. Version 2 has minor corrections and clarifications. Figure

Scientific paper

10.1016/j.astropartphys.2009.03.

This article describes the Monte Carlo simulation used to interpret the measurement of the muon-induced neutron flux in the Boulby Underground Laboratory (North Yorkshire, UK), recently performed using a large scintillator veto deployed around the ZEPLIN-II WIMP detector. Version 8.2 of the GEANT4 toolkit was used after relevant benchmarking and validation of neutron production models. In the direct comparison between Monte Carlo and experimental data, we find that the simulation produces a 1.8 times higher neutron rate, which we interpret as over-production in lead by GEANT4. The dominance of this material in neutron production allows us to estimate the absolute neutron yield in lead as (1.31 +/- 0.06) x 10^(-3) neutrons/muon/(g/cm^2) for a mean muon energy of 260 GeV. Simulated nuclear recoils due to muon-induced neutrons in the ZEPLIN-II target volume (~1 year exposure) showed that, although a small rate of events is expected from this source of background in the energy range of interest for dark matter searches, no event survives an anti-coincidence cut with the veto.

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