Design of radiation conversion target for Compton gamma magnetic spectrometer

• Main Authors: Xiufeng Weng, Xinjian Tan, Dongwei Hei, Xiaodong Zhang, Bin Sun, Kun Wei, Xiao Liu
• Format: Article
• Language: English
• Published: AIP Publishing LLC 2021-05-01
• Series: AIP Advances
• Online Access: http://dx.doi.org/10.1063/5.0050567

This paper analyzes the intrinsic energy resolution, the influence law of multiple Coulomb scattering, the radiation conversion efficiency, and other factors of the Compton radiation conversion target. Based on the essential principle of interaction between gamma rays and matter, the theoretical characteristics and transport law of Compton electrons are analyzed. Through a Monte Carlo simulation, the composition, energy, and angular distribution of electrons emitted from the target surface are calculated; the influence of target parameters, such as target material, thickness, and electron collection angle, on target performance is studied; and then the optimization method of target parameters is established. Finally, the main performance parameters of the Compton radiation conversion target are given. This research reveals how multiple Coulomb scattering angles relate to materials of different types and thicknesses, as well as to the optimal collection angle. A series of optimized parameters for the material, mass thickness, and corresponding energy resolution of radiation conversion target with different conversion efficiencies are obtained.