An Anisotropic Neutron Collimating System for Proton Accelerator-Generated Secondary Particles

Date

2025-05-16

Author

Mucogllava, Brunilda
UZUN DURAN, SELCEN
Demirköz, Melahat Bilge

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Proton-stainless steel interactions occurring at the first collimator of the Middle East Technical University Defocusing Beamline generate high-energy secondary particles like neutrons (<= 23 MeV), gamma rays (<= 14 MeV), and electrons and positrons (UNCT_A_24624747.0 MeV) with particle fluxes between 10(7) to 10(9) particles/(cm(2)center dot s). A neutron collimating system aiming to reduce most of these secondaries and obtain a moderate flux of fast neutrons was designed and constructed. The collimating structure consists of a moderating unit aiming to shield the outside of the system, a neutron funnel to redirect the neutrons to the desired beam geometry, and a testing station. This system funnels neutrons into a 10-cm-diameter nonuniform beam and directs them to a testing area capable of hosting up to six samples of 7.3-cm diameter and up to 3.0-cm thickness. Simulation results show neutrons with energies up to 5.0 MeV and a flux of 10(6) neutrons/(cm(2)center dot s) at the testing unit, while the experimental result gives a neutron dose rate of about 22 mSv/h.

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https://hdl.handle.net/11511/116297

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Department of Physics, Article