Scintillating materials can enable the discrimination of neutrons and charged particles from gamma rays by exploiting the pulse shape discrimination (PSD) technique. The ability to discriminate between high energy photons and ionizing particles is indeed useful in several fields, for example to estimate the power generated in nuclear reactors or to identify threat radioactive materials (Uranium-235 and Plutonium-230) from the reaction of other non-threat sources. PSD techniques involve a time-gated analysis of the transient voltage pulse generated in the photodetector of the scintillation counter. This analysis allows to distinguish between fast and slow components of the scintillation signal, i.e., prompt and delayed emission, whose relative intensity and lifetime depend on the type of the incident radiation . We demonstrated that sensitive and fast PSD detection can be achieved in nanostructured polymer scintillators. The material is made of a solid polymer matrix, which provides structural stability but is optically passive, liquid nanodomains containing an extremely high concentration of a triplet triplet-annihilation (TTA) dye and optionally a triplet sensitizer, so that the delayed fluorescence occurs even at ultra-low energy densities. In this work we investigated the PSD response of a series of nanostructured scintillators as a function of the composition, in order to point out the mechanism behind the sensitization of the delayed fluorescence intensity in the presence of a triplet sensitizer. The obtained results provide the guidelines for the design and fabrication of high performance nanostructured multiphase scintillators that can surpass the state-of the art, commercially available, PSD plastic scintillators.

Pollice, L., Hu, X., Rigamonti, D., Villa, I., Mauri, M., Dal Molin, A., et al. (2024). Composition optimization of nanostructured polymeric scintillators for pulse shape discrimination. Intervento presentato a: 4th INTERNATIONAL SYMPOSIUM ON SINGLET FISSION AND PHOTON FUSION, New York City, USA.

Composition optimization of nanostructured polymeric scintillators for pulse shape discrimination

Pollice, L;Rigamonti, D;Villa, I;Mauri, M;Dal Molin, A;Tardocchi, M;Meinardi, F;Monguzzi, A
2024

Abstract

Scintillating materials can enable the discrimination of neutrons and charged particles from gamma rays by exploiting the pulse shape discrimination (PSD) technique. The ability to discriminate between high energy photons and ionizing particles is indeed useful in several fields, for example to estimate the power generated in nuclear reactors or to identify threat radioactive materials (Uranium-235 and Plutonium-230) from the reaction of other non-threat sources. PSD techniques involve a time-gated analysis of the transient voltage pulse generated in the photodetector of the scintillation counter. This analysis allows to distinguish between fast and slow components of the scintillation signal, i.e., prompt and delayed emission, whose relative intensity and lifetime depend on the type of the incident radiation . We demonstrated that sensitive and fast PSD detection can be achieved in nanostructured polymer scintillators. The material is made of a solid polymer matrix, which provides structural stability but is optically passive, liquid nanodomains containing an extremely high concentration of a triplet triplet-annihilation (TTA) dye and optionally a triplet sensitizer, so that the delayed fluorescence occurs even at ultra-low energy densities. In this work we investigated the PSD response of a series of nanostructured scintillators as a function of the composition, in order to point out the mechanism behind the sensitization of the delayed fluorescence intensity in the presence of a triplet sensitizer. The obtained results provide the guidelines for the design and fabrication of high performance nanostructured multiphase scintillators that can surpass the state-of the art, commercially available, PSD plastic scintillators.
abstract + poster
scintillators; triplet-triplet annihilation; conjugated materilas; pulse shape discrimination; nanostructured materials
English
4th INTERNATIONAL SYMPOSIUM ON SINGLET FISSION AND PHOTON FUSION
2024
Pollice, L; Hu, X; Rigamonti, D; Villa, I; Mauri, M; Dal Molin, A; Tardocchi, M; Meinardi, F; Weder, C; Monguzzi, A
2024
open
Pollice, L., Hu, X., Rigamonti, D., Villa, I., Mauri, M., Dal Molin, A., et al. (2024). Composition optimization of nanostructured polymeric scintillators for pulse shape discrimination. Intervento presentato a: 4th INTERNATIONAL SYMPOSIUM ON SINGLET FISSION AND PHOTON FUSION, New York City, USA.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/497719
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