A scintillation-fiber cube spectrometer measures proton energies from 6-93 MeV with 0.6% uncertainty at 80 MeV and 0.5 mm spatial resolution, demonstrated on complex beams generated with an energy degrader.
Title resolution pending
2 Pith papers cite this work. Polarity classification is still indexing.
2
Pith papers citing it
citation-role summary
background 1
citation-polarity summary
years
2026 2verdicts
UNVERDICTED 2roles
background 1polarities
background 1representative citing papers
CAHAL introduces a physics-informed mixture-of-experts super-resolution network for clinical MRI that conditions on resolution and anisotropy and uses edge-penalised, Fourier, and segmentation-guided losses to reduce hallucinations compared with prior generative methods.
citing papers explorer
-
A Spatial-Resolved Proton Energy Spectrometer Based on a Scintillation-Fiber Cube
A scintillation-fiber cube spectrometer measures proton energies from 6-93 MeV with 0.6% uncertainty at 80 MeV and 0.5 mm spatial resolution, demonstrated on complex beams generated with an energy degrader.
-
CAHAL: Clinically Applicable resolution enHAncement for Low-resolution MRI scans
CAHAL introduces a physics-informed mixture-of-experts super-resolution network for clinical MRI that conditions on resolution and anisotropy and uses edge-penalised, Fourier, and segmentation-guided losses to reduce hallucinations compared with prior generative methods.