M. Felisi scite author profile

The reliability of Fricke gel dosimeters in form of layers for measurements aimed at the characterization of epithermal neutron beams has been studied. By means of dosimeters of different isotopic composition (standard, containing (10)B or prepared with heavy water) placed against the collimator exit, the spatial distribution of gamma and fast neutron doses and of thermal neutron fluence are attained. In order to investigate the accuracy of the results obtained with in-air measurements, suitable MC simulations have been developed and experimental measurements have been performed utilizing Fricke gel dosimeters, thermoluminescence detectors and activation foils. The studies were related to the epithermal beam designed for BNCT irradiations at the research reactor LVR-15 (Řež). The results of calculation and measurements have revealed good consistency of gamma dose and fast neutron 2D distributions obtained with gel dosimeters in form of layers. In contrast, noticeable modification of thermal neutron fluence is caused by the neutron moderation produced by the dosimeter material. Fricke gel dosimeters in thin cylinders, with diameter not greater than 3mm, have proved to give good results for thermal neutron profiling. For greater accuracy of all results, a better knowledge of the dependence of gel dosimeter sensitivity on radiation LET is needed.

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Automatic lung segmentation in COVID-19 patients: Impact on quantitative computed tomography analysis

Berta

Rizzetto

Mattia

et al. 2021

Physica Medica

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Let quenching correction in solid state dosimeters

et al. 2016

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M. Felisi

Study of optical absorbance and MR relaxation of Fricke xylenol orange gel dosimeters

Validation of a dose tracking software for skin dose map calculation in interventional radiology

Study of suitability of Fricke-gel-layer dosimeters for in-air measurements to characterise epithermal/thermal neutron beams for NCT

Automatic lung segmentation in COVID-19 patients: Impact on quantitative computed tomography analysis

Let quenching correction in solid state dosimeters

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