Study of the Microfocus X-Ray Tube Based on a Point-Like Target Used for Micro-Computed Tomography.

For a micro-Computed Tomography (Micro-CT) system, the microfocus X-ray tube is an essential component because the spatial resolution of CT images, in theory, is mainly determined by the size and stability of the X-ray focal spot of the microfocus X-ray tube. However, many factors, including voltage...

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Main Authors: Rifeng Zhou, Xiaojian Zhou, Xiaobin Li, Yufang Cai, Fenglin Liu
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2016-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC4889132?pdf=render
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spelling doaj-674df7a4e5974518857e29facbb8d6882020-11-25T02:40:10ZengPublic Library of Science (PLoS)PLoS ONE1932-62032016-01-01116e015622410.1371/journal.pone.0156224Study of the Microfocus X-Ray Tube Based on a Point-Like Target Used for Micro-Computed Tomography.Rifeng ZhouXiaojian ZhouXiaobin LiYufang CaiFenglin LiuFor a micro-Computed Tomography (Micro-CT) system, the microfocus X-ray tube is an essential component because the spatial resolution of CT images, in theory, is mainly determined by the size and stability of the X-ray focal spot of the microfocus X-ray tube. However, many factors, including voltage fluctuations, mechanical vibrations, and temperature changes, can cause the size and the stability of the X-ray focal spot to degrade. A new microfocus X-ray tube based on a point-like micro-target in which the X-ray target is irradiated with an unfocused electron beam was investigated. EGS4 Monte Carlo simulation code was employed for the calculation of the X-ray intensity produced from the point-like micro-target and the substrate. The effects of several arrangements of the target material, target and beam size were studied. The simulation results demonstrated that if the intensity of X-rays generated at the point-like target is greater than half of the X-ray intensity produced on the substrate, the X-ray focal spot is determined in part by the point-like target rather than by the electron beam in the conventional X-ray tube. In theory, since it is able to reduce those unfavorable effects such as the electron beam trajectory swinging and the beam size changing for the microfocus X-ray tube, it could alleviate CT image artifacts caused by the X-ray focal spot shift and size change.http://europepmc.org/articles/PMC4889132?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Rifeng Zhou
Xiaojian Zhou
Xiaobin Li
Yufang Cai
Fenglin Liu
spellingShingle Rifeng Zhou
Xiaojian Zhou
Xiaobin Li
Yufang Cai
Fenglin Liu
Study of the Microfocus X-Ray Tube Based on a Point-Like Target Used for Micro-Computed Tomography.
PLoS ONE
author_facet Rifeng Zhou
Xiaojian Zhou
Xiaobin Li
Yufang Cai
Fenglin Liu
author_sort Rifeng Zhou
title Study of the Microfocus X-Ray Tube Based on a Point-Like Target Used for Micro-Computed Tomography.
title_short Study of the Microfocus X-Ray Tube Based on a Point-Like Target Used for Micro-Computed Tomography.
title_full Study of the Microfocus X-Ray Tube Based on a Point-Like Target Used for Micro-Computed Tomography.
title_fullStr Study of the Microfocus X-Ray Tube Based on a Point-Like Target Used for Micro-Computed Tomography.
title_full_unstemmed Study of the Microfocus X-Ray Tube Based on a Point-Like Target Used for Micro-Computed Tomography.
title_sort study of the microfocus x-ray tube based on a point-like target used for micro-computed tomography.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2016-01-01
description For a micro-Computed Tomography (Micro-CT) system, the microfocus X-ray tube is an essential component because the spatial resolution of CT images, in theory, is mainly determined by the size and stability of the X-ray focal spot of the microfocus X-ray tube. However, many factors, including voltage fluctuations, mechanical vibrations, and temperature changes, can cause the size and the stability of the X-ray focal spot to degrade. A new microfocus X-ray tube based on a point-like micro-target in which the X-ray target is irradiated with an unfocused electron beam was investigated. EGS4 Monte Carlo simulation code was employed for the calculation of the X-ray intensity produced from the point-like micro-target and the substrate. The effects of several arrangements of the target material, target and beam size were studied. The simulation results demonstrated that if the intensity of X-rays generated at the point-like target is greater than half of the X-ray intensity produced on the substrate, the X-ray focal spot is determined in part by the point-like target rather than by the electron beam in the conventional X-ray tube. In theory, since it is able to reduce those unfavorable effects such as the electron beam trajectory swinging and the beam size changing for the microfocus X-ray tube, it could alleviate CT image artifacts caused by the X-ray focal spot shift and size change.
url http://europepmc.org/articles/PMC4889132?pdf=render
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