A proton-recoil track imaging system for fast neutrons: the RIPTIDE detector

Camprini, P. Console; Leone, F.; Massimi, C.; Musumarra, A.; C., Pisanti,; Romano, F.; Spighi, R.; Terranova, N.

doi:10.1088/1748-0221/18/01/c01054

J. Inst.

2023

DOI: 10.1088/1748-0221/18/01/c01054

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A proton-recoil track imaging system for fast neutrons: the RIPTIDE detector

P. Console Camprini

F. Leone

C. Massimi

et al.

Abstract: Fast neutron detection is often based on the neutron-proton elastic scattering reaction: the ionization caused by recoil protons in a hydrogenous material constitutes the basic information for the design and development of a class of neutron detectors. Although experimental techniques have continuously improved, proton-recoil track imaging remains still at the frontier of n-detection systems, due to the high photon sensitivity required. Several state-of-the-art approaches for neutron tracking by using n-p sing… Show more

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2024

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Riptide: a proton-recoil track imaging detector for fast neutrons

Pisanti,

Berardi,

Console Camprini

et al. 2024

J. Inst.

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Riptide is a detector concept aiming to track fast neutrons. It is based on neutron-proton elastic collisions inside a plastic scintillator, where the neutron momentum can be measured by imaging the scintillation light. More specifically, by stereoscopically imaging the recoil proton tracks, the proposed apparatus provides neutron spectrometry capability and enable the online analysis of the specific energy loss along the track. In principle, the spatial and topological event reconstruction enables particle discrimination, which is a crucial property for neutron detectors. In this contribution, we report the advances on the Riptide detector concept. In particular, we have developed a Geant4 optical simulation to demonstrate the possibility of reconstructing with sufficient precision the tracks and the vertices of neutron interactions inside a plastic scintillator. To realistically model the optics of the scintillation detector, mono-energetic protons were generated inside a 6 × 6 × 6 cm3 cubic BC-408 scintillator, and the produced optical photons were propagated and then recorded on a scoring plane corresponding to the surfaces of the cube. The photons were then transported through an optical system to a 2 × 2 cm2 photo sensitive area with 1 Megapixel. Moreover, we have developed two different analysis procedures to reconstruct 3D tracks: one based on data fitting and one on Principal Component Analysis. The main results of this study will be presented with a particular focus on the role of the optical system and the attainable spatial and energy resolution.

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Riptide: a proton-recoil track imaging detector for fast neutrons

Pisanti,

Berardi,

Console Camprini

et al. 2024

J. Inst.

Self Cite

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A proton-recoil track imaging system for fast neutrons: the RIPTIDE detector

Cited by 1 publication

References 15 publications

Riptide: a proton-recoil track imaging detector for fast neutrons

Riptide: a proton-recoil track imaging detector for fast neutrons

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