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DOI: 10.4121/0dc1cd14-1e5a-42d9-8bf6-60af680c8aa7

Cosmi, Valerio; Wang, Beien; Goorden, Marlies C.; Beekman, Freek (2025): Data underlying the publication: "NaI gamma camera performance for high energies: Effects of crystal thickness, photomultiplier tube geometry and light guide thickness". Version 1. 4TU.ResearchData. dataset. https://doi.org/10.4121/0dc1cd14-1e5a-42d9-8bf6-60af680c8aa7.v1

Categories

• Artificial Intelligence and Image Processing
• Other Medical and Health Sciences
• Atomic, Molecular, Nuclear, Particle and Plasma Physics
• Physical Sciences
• Information and Computing Sciences
• Medical and Health Sciences

Keywords

gamma camera high-energy maximum-likelihood Monte Carlo

Licence

CC0

Interoperability

• RO-Crate Metadata

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by Valerio Cosmi , Beien Wang , Marlies C. Goorden , Freek Beekman

This work focused on the study of NaI gamma cameras, with particular attention to scintillator thickness, PMT size and layout, and light guide thickness. The motivation for this study stems from the growing interest in gamma imaging beyond the conventional clinical energy range, for example in theranostic applications and preclinical multi-isotope PET and PET-SPECT imaging. However, standard gamma cameras are typically equipped with 9.5 mm thick NaI crystals, which can lead to limited sensitivity at higher energies. To address this limitation, we investigated the extent to which increasing the scintillator thickness can improve photopeak sensitivity for high-energy isotopes while maintaining acceptable spatial resolution. This led to a systematic study in which different combinations of scintillator thickness, light guide thickness, and PMT type were compared through performance analysis. The collected data include simulation macros, performance analysis scripts, and reconstructed images. All datasets, scripts, and software used in the paper “NaI gamma camera performance for high energies: Effects of crystal thickness, photomultiplier tube geometry and light guide thickness” have been archived. A user manual detailing how to operate the software tools employed in this work is also included.

History

• 2025-10-16 first online, published, posted

Publisher

4TU.ResearchData

Format

Images in jpeg, jpg or png. Softwares format in .m (Matlab), .py (python), .c (c++). Simulation macros format in .mac (GATE simulation software).

Associated peer-reviewed publication

NaI gamma camera performance for high energies: Effects of crystal thickness, photomultiplier tube geometry and light guide thickness

Funding

• QUARAT: Quantitative Universal Radiotracer Tomography (grant code TTW16885) Dutch Research Council (NWO)

Organizations

TU Delft, Faculty of Applied Sciences, Department of Radiation Science and Technology, Biomedical Imaging