Journal de neuroinformatique et de neuroimagerie

Abstrait

Experimental evaluation of Yonsei single-photon emission computed tomography (YSECT)

Kohei Ogasa*

The purpose of this study was to verify the chance of fuel rod pattern examination in a new fuel gathering utilizing the Yonsei single-photon emanation figured tomography (YSECT) framework. The YSECT framework comprised of three principal parts: four trapezoidal-formed bismuth germanate scintillator-based 64-channel identifiers, a semiconductor-based multi-channel information obtaining framework, and a turning stage. To survey the exhibition of the model YSECT, tomographic pictures were acquired for three agent fuel bar designs in the 6X6 cluster utilizing two delegate picture reproduction calculations. The fuel-bar designs were then evaluated utilizing an in-house fuel pole design examination calculation. In the exploratory outcomes, the single-directional projection pictures for those three fuel-pole designs very much separated each fuel-bar area, showing a Gaussian-top molded projection for a solitary 10 mm-measurement fuel bar with 12.1 mm full-width at half most extreme. At long last, we effectively confirmed the chance of the fuel bar design investigation for each of the three examples of new fuel poles with the tomographic pictures acquired by the rotational YSECT framework.

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