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3D printing of composite reflectors for enhanced light collection in scintillation detectors
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  • Petr Sokolov ,
  • Dmitrii Komissarenko ,
  • Georgy Dosovitskiy ,
  • Mikhail Korzhik
Petr Sokolov
NRC Kurchatov Institute - IREA

Corresponding Author:[email protected]

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Dmitrii Komissarenko
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Georgy Dosovitskiy
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Mikhail Korzhik
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The present study deals with the fabrication of light-reflecting materials used in pixelated scintillator detectors. For the first time, the reflecting surfaces for pixels of different sizes (from 0.8 to 3.2 mm) were obtained via a low-cost DLP 3D printing technique. The material for the reflectors was the new composite of transparent ultraviolet light-cured resin and TiO2 as a light-scattering filler. It was observed that TiO2 showed better performance compare to other pigments such as BaSO4, hBN or cubic zirconia. The object formation rate was about 1 cm per hour with the possibility to produce several parts simultaneously that simplifies the wrapping procedure. It was found that the regular grooves pattern of the fabricated parts (staircase effect) could increase a light collection from a scintillator. The reflective properties of such surfaces were comparable to conventional reflection coating (e.g., Teflon wrapping).
Presented at the 2019 IEEE NSS & MIC conference, Manchester, UK. 14 pages, 12 figures, 1 table. Journal reference: Optical Materials V. 108, October 2020, p. 110393.
Oct 2020Published in Optical Materials volume 108 on pages 110393. 10.1016/j.optmat.2020.110393