Author
A. Querol
Bio: A. Querol is an academic researcher from Polytechnic University of Valencia. The author has contributed to research in topics: Monte Carlo method & Flat panel detector. The author has an hindex of 4, co-authored 27 publications receiving 71 citations.
Papers
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TL;DR: In this article, a comparison of the results obtained in the simulations for both installations using TRACE, observing, in general, a good agreement with the experiments, was presented. But, the authors pointed out that the simulation results might explain the higher core level predicted in the simulation compared with the experiment.
9 citations
TL;DR: In this article, the authors analyzed the physical phenomena observed during a Small Break Loss-Of-Coolant Accident transient performed in a small-scale Integral Test Facility and to determine the capability of the thermal hydraulic code TRACE5 to reproduce these phenomena in a scale-up model.
7 citations
TL;DR: In this paper, the Monte Carlo codes PENELOPE and MCNP5 have been used to simulate the indirect method based on a simplified Compton spectrometry technique, and the reliability of unfolded X-ray spectra is studied by comparing them with theoretical spectra obtained from the IPEM 78 catalog.
6 citations
TL;DR: In this paper, the Noether-Wilks formula is used to carry out the uncertainty analysis and a Probability Density Function (PDF) is assigned to each variable involved in the sampling process.
6 citations
TL;DR: New indoor Radon measurements with the charcoal canister technique confirm the low average level of indoor radon in the city of Valencia, with a geometrical mean of 24 Bq/m(3) and an arithmetic mean of 27 Bq/.
6 citations
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Journal Article•
TL;DR: In this article, the authors describe how suitably doped semiconductor scintillators could provide a combination of high light output, short decay time, and linearity of response that approach fundamental limits.
242 citations
TL;DR: The theory of task-based assessment of image quality is reviewed in the context of imaging with ionizing radiation, and objective figures of merit (FOMs) for image quality are summarized.
Abstract: The theory of task-based assessment of image quality is reviewed in the context of imaging with ionizing radiation, and objective figures of merit (FOMs) for image quality are summarized. The variation of the FOMs with the task, the observer and especially with the mean number of photons recorded in the image is discussed. Then various standard methods for specifying radiation dose are reviewed and related to the mean number of photons in the image and hence to image quality. Current knowledge of the relation between local radiation dose and the risk of various adverse effects is summarized, and some graphical depictions of the tradeoffs between image quality and risk are introduced. Then various dose-reduction strategies are discussed in terms of their effect on task-based measures of image quality.
116 citations
TL;DR: The article presents an alternative approach which is based on modified Lambert-Beer law, which allows to increase the temporal resolution of a gauge without the necessity of using a stronger radioactive source and the accuracy of the measurements will not depend on count rate.
44 citations
TL;DR: These measurements show that the compact Compton spectrometer can be rapidly set-up using the alignment lasers of the CT scanner, thereby enabling its use in commissioning, troubleshooting, and, e.g., annual performance check-ups of CT scanners.
Abstract: Purpose: Spectral information of the output of x-ray tubes in (dual source) computer tomography (CT) scanners can be used to improve the conversion of CT numbers to proton stopping power and can be used to advantage in CT scanner quality assurance. The purpose of this study is to design, validate, and apply a compact portable Compton spectrometer that was constructed to accurately measure x-ray spectra of CT scanners. Methods: In the design of the Compton spectrometer, the shielding materials were carefully chosen and positioned to reduce background by x-ray fluorescence from the materials used. The spectrum of Compton scattered x-rays alters from the original source spectrum due to various physical processes. Reconstruction of the original x-ray spectrum from the Compton scattered spectrum is based on Monte Carlo simulations of the processes involved. This reconstruction is validated by comparing directly and indirectly measured spectra of a mobile x-ray tube. The Compton spectrometer is assessed in a clinical setting by measuring x-ray spectra at various tube voltages of three different medical CT scanner x-ray tubes. Results: The directly and indirectly measured spectra are in good agreement (their ratio being 0.99) thereby validating the reconstruction method. The measured spectra of the medical CT scanners are consistent with theoretical spectra and spectra obtained from the x-ray tube manufacturer. Conclusions: A Compton spectrometer has been successfully designed, constructed, validated, and applied in the measurement of x-ray spectra of CT scanners. These measurements show that our compact Compton spectrometer can be rapidly set-up using the alignment lasers of the CT scanner, thereby enabling its use in commissioning, troubleshooting, and, e.g., annual performance check-ups of CT scanners.
23 citations
TL;DR: In this paper, some main integral thermal-hydraulic test facilities are summarized from the perspective of scaling design and applicability evaluation and reference guidance for the rational design and application evaluation is provided.
19 citations