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Synthesis and processing of lithium-loaded plastic scintillators on the kilogram scale

Authors :
Ford, Michael J.
Aigeldinger, Elisabeth
Sutanto, Felicia
Zaitseva, Natalia P.
Li, Viacheslav A.
Carman, M. Leslie
Glenn, Andrew
Catala, Cristian R.
Dazeley, Steven A.
Bowden, Nathaniel
Publication Year :
2023

Abstract

Plastic scintillators that can discriminate between gamma rays, fast neutrons, and thermal neutrons were synthesized and characterized while considering the balance between processing and performance at the kilogram scale. These trade-offs were necessitated by the inclusion of 0.1 wt. % lithium-6 to enable detection of thermal neutrons. The synthesis and processing of these plastic scintillators on the kilogram scale required consideration of many factors. First, a comonomer (methacrylic acid) was used to solubilize salts of lithium-6, which allow for a thermal-neutron capture reaction that produces scintillation light following energy transfer. Second, scintillation performance and processability were considered because the increasing content of the comonomer resulted in a sharp decrease in the light output. The use of small amounts of comonomer (less than or equal to 3 wt. %) resulted in better performance but required high processing temperatures. At large scales, these high temperatures could initiate an exothermic polymerization that results in premature curing and/or defects. The deleterious effects of the comonomer may be mitigated by using m-terphenyl as a primary dye rather than 2,5-diphenyloxazole (PPO), which has been traditionally used in organic scintillators. Finally, the curing environment was controlled to avoid defects like cracking and discoloration while maintaining solubility of dopants during curing. For scintillators that were produced from kilogram-scale batches of precursors, the effective attenuation of scintillation light was characterized.

Details

Database :
arXiv
Publication Type :
Report
Accession number :
edsarx.2301.04185
Document Type :
Working Paper
Full Text :
https://doi.org/10.1016/j.nima.2023.168093