Characterization of photo-neutrons produced by 150 MeV and 1 GeV electrons impinging on high Z-metallic targets for neutron resonance spectroscopy

ElSaady, ElTayeb; ElAshmawy, Mustafa M. M.; Abu-Zeid, Hosnia M.; Nada, Afaf A.; Ragab, Fatma ElZahraa M.

doi:10.21608/jsrs.2018.14109

Characterization of photo-neutrons produced by 150 MeV and 1 GeV electrons impinging on high Z-metallic targets for neutron resonance spectroscopy

Document Type : Original Article

Authors

¹ Egyptian Nuclear and Radiological Regulatory Authority, Cairo, Egypt.

² Egyptian Nuclear and Radiological Regulatory Authority, Cairo, Egypt

³ Faculty of women for Arts, Sci. and Ed., Ain Shams University, Cairo, Egypt.

10.21608/jsrs.2018.14109

Abstract

Monte Carlo calculations have been performed using MCNP code to study the generation, angular distribution and energy spectrum of photo-neutrons for 1 GeV and 150 MeV electron beam energies impinging on different thickness of Tungsten, Tantalum and Lead targets. It is noticed that the photo-neutron yield increases as the target thickness increases then saturates beyond an optimized thickness of the target. Moreover, the photo-neutron yield shows significant increase as the electron energy increases. At the optimized thickness, the angular distribution of photo-neutrons is found almost isotropic for 150 MeV electrons and anisotropic for 1 GeV electrons. Further, by increasing the electron energy and/or the target thickness the angular distribution is found to be forward peaked. The energy spectrum of photo-neutrons can be well described by a Maxwellian distribution for both electron energies. Such calculations can help in developing a photo-neutron source based time of flight facility (TOF) for elemental and isotopic identification via neutron resonance spectroscopy. Photo-neutron yields, angular distribution, mean energy, energy spectrum and nuclear temperature for 1 GeV and 150 MeV electron energies and different target materials are presented.