PRISM multifocal plenoptic system achieves ~1 mm average 3D localization error for single-vertex events in scintillation detectors with O(100) photons.
Single-Volume Neutron Scatter Camera for High-Efficiency Neutron Imaging and Spectroscopy
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abstract
Neutron detection provides an effective method to detect, locate, and characterize sources of interest to nuclear security applications. Current neutron imaging systems based on double-scatter kinematic reconstruction provide good signal vs. background discrimination and spectral capability, but suffer from poor sensitivity due to geometrical constraints. This weakness can be overcome if both neutron-proton scattering interactions are detected and resolved within one large contiguous active detector volume. We describe here a maximum likelihood approach to event reconstruction in a single-volume system with no optical segmentation and sensitivity to individual optical photons on the surfaces of the scintillator. We present results from a Geant4-based simulation establishing the feasibility of this single-volume neutron scatter camera concept given notional performance of existing photodetector and readout technologies.
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physics.ins-det 1years
2026 1verdicts
UNVERDICTED 1representative citing papers
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Plenoptic imaging of particle interactions in scintillation detectors
PRISM multifocal plenoptic system achieves ~1 mm average 3D localization error for single-vertex events in scintillation detectors with O(100) photons.