Purpose This paper presents the development and implementation of a microtron-based setup for solid-state sample irradiation.Methods The fabrication of microtron components that extract 6 MeV electrons is detailed,ena...Purpose This paper presents the development and implementation of a microtron-based setup for solid-state sample irradiation.Methods The fabrication of microtron components that extract 6 MeV electrons is detailed,enabling detailed studies of energy-dependent radiation effects.Results Experimental findings have led to a precise mapping of accelerated electron flux density,and subsequently,the establishment of uniform irradiation zones and real-time dose absorption control.Titanium carbide samples were irradiated using the bremsstrahlung of electrons from the microtron.Conclusion Calculations of absorbed doses from an extended bremsstrahlung source were conducted,considering key factors such as sample geometry and physical properties.展开更多
基金Chinese Academy of Science(CAS)and The World Academy of Science(TWAS)for providing financial support by means of the 2019 CAS-TWAS President’s Fellowship Programme(No.2019CTF123).
文摘Purpose This paper presents the development and implementation of a microtron-based setup for solid-state sample irradiation.Methods The fabrication of microtron components that extract 6 MeV electrons is detailed,enabling detailed studies of energy-dependent radiation effects.Results Experimental findings have led to a precise mapping of accelerated electron flux density,and subsequently,the establishment of uniform irradiation zones and real-time dose absorption control.Titanium carbide samples were irradiated using the bremsstrahlung of electrons from the microtron.Conclusion Calculations of absorbed doses from an extended bremsstrahlung source were conducted,considering key factors such as sample geometry and physical properties.
