PET Detectors with 0.4-mm Depth-of-Interaction Resolution
Andrei Yu. Semenov
TL;DR
This paper introduces a novel reconstruction method for PET detectors that achieves approximately 0.4 mm depth-of-interaction resolution, enhancing spatial accuracy in PET imaging.
Contribution
A new reconstruction technique for PET detectors with dual-side readout that significantly improves depth-of-interaction resolution.
Findings
Achieves about 0.4 mm DOI resolution with 10-mm LYSO scintillators.
Can be tuned for even better DOI resolution below 0.3 mm.
Demonstrates effective Monte-Carlo simulation results.
Abstract
Presice measurements of the photons conversion points in the scintillators are required to achieve a high spatial resolution of the PET system. I have developed a new method of reconstruction of the depth-of-interaction information for PET detectors with dual-side readout. The depth-of-interaction and energy resolutions from Monte-Carlo simulations are presented in this paper. The new method allows to reach depth-of-interaction resolution that is about 0.4~mm () [or about 1.0~mm (FWHM)] for 10-mm long LYSO scintillator. If the precise measurement of the primary photon energy is not a high priority, the new method can be tuned to achieve even better results for the DOI resolution that is better than 0.3~mm () [or better than 0.7~mm (FWHM)].
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Taxonomy
TopicsRadiation Detection and Scintillator Technologies · Medical Imaging Techniques and Applications · Nuclear Physics and Applications