X-ray Laser Development and Its Research in Phase Contrast Image Application

碩士 === 元培醫事科技大學 === 醫學影像暨放射技術系碩士班 === 107 === This study used gamma ray to illuminate the neutron-activated niobium, which illumination will turn 90 degrees to produce a coherent source. The goal is to develop a laser source that can be used in future phase contrast imaging systems that are miniatu...

Full description

Bibliographic Details
Main Authors: CHIU, WEI-PIN, 邱瑋蘋
Other Authors: KUO, TSUNG-TER
Format: Others
Language:zh-TW
Published: 2019
Online Access:http://ndltd.ncl.edu.tw/handle/95ra87
id ndltd-TW-107YUST0770010
record_format oai_dc
spelling ndltd-TW-107YUST07700102019-07-26T03:38:50Z http://ndltd.ncl.edu.tw/handle/95ra87 X-ray Laser Development and Its Research in Phase Contrast Image Application X光雷射開發與其在相位對比影像應用之研究 CHIU, WEI-PIN 邱瑋蘋 碩士 元培醫事科技大學 醫學影像暨放射技術系碩士班 107 This study used gamma ray to illuminate the neutron-activated niobium, which illumination will turn 90 degrees to produce a coherent source. The goal is to develop a laser source that can be used in future phase contrast imaging systems that are miniaturized, or for other industrial applications. According to patent number US20170115431A1, the invention initially verified that the gamma source can be turned 90 degrees, and the high purity germanium detector (HPGe) is used to resolve the energy spectrum and perform counting analysis. In this experiment, niobium with a purity of 99.99% was used, its size was 3cm × 1.5cm × 1mm, niobium was irradiated by THOR neutrons in Tsinghua University for 4 hours, and the irradiation power was 1.5W. A sequence of experimental designs is then performed. The 5 millicurie 137Cs source is directed to the niobium, and a multichannel analyzer (MCA) is used to connect the high-purity detector to measure signal analysis, and is used with the MAESTRO computer software. Measure the difference of refraction of γ source with different parameters, change the direction of γ source, adjust the crystal lattice parameters, and complete a series of design experiments. According to the long-term experimental measurement, the signal is quite obvious. There are seven obvious up and down oscillations, and there is Rayleigh scattering. In this short-term experiment, the measured signal is weak, and the Rayleigh radiation phenomenon is not obvious. The weaker signal may come from accumulated noise. In the future, the cutting size, the time of neutron irradiation, the time and method of annealing, and the like will be continuously improved. KUO, TSUNG-TER 郭宗德 2019 學位論文 ; thesis 46 zh-TW
collection NDLTD
language zh-TW
format Others
sources NDLTD
description 碩士 === 元培醫事科技大學 === 醫學影像暨放射技術系碩士班 === 107 === This study used gamma ray to illuminate the neutron-activated niobium, which illumination will turn 90 degrees to produce a coherent source. The goal is to develop a laser source that can be used in future phase contrast imaging systems that are miniaturized, or for other industrial applications. According to patent number US20170115431A1, the invention initially verified that the gamma source can be turned 90 degrees, and the high purity germanium detector (HPGe) is used to resolve the energy spectrum and perform counting analysis. In this experiment, niobium with a purity of 99.99% was used, its size was 3cm × 1.5cm × 1mm, niobium was irradiated by THOR neutrons in Tsinghua University for 4 hours, and the irradiation power was 1.5W. A sequence of experimental designs is then performed. The 5 millicurie 137Cs source is directed to the niobium, and a multichannel analyzer (MCA) is used to connect the high-purity detector to measure signal analysis, and is used with the MAESTRO computer software. Measure the difference of refraction of γ source with different parameters, change the direction of γ source, adjust the crystal lattice parameters, and complete a series of design experiments. According to the long-term experimental measurement, the signal is quite obvious. There are seven obvious up and down oscillations, and there is Rayleigh scattering. In this short-term experiment, the measured signal is weak, and the Rayleigh radiation phenomenon is not obvious. The weaker signal may come from accumulated noise. In the future, the cutting size, the time of neutron irradiation, the time and method of annealing, and the like will be continuously improved.
author2 KUO, TSUNG-TER
author_facet KUO, TSUNG-TER
CHIU, WEI-PIN
邱瑋蘋
author CHIU, WEI-PIN
邱瑋蘋
spellingShingle CHIU, WEI-PIN
邱瑋蘋
X-ray Laser Development and Its Research in Phase Contrast Image Application
author_sort CHIU, WEI-PIN
title X-ray Laser Development and Its Research in Phase Contrast Image Application
title_short X-ray Laser Development and Its Research in Phase Contrast Image Application
title_full X-ray Laser Development and Its Research in Phase Contrast Image Application
title_fullStr X-ray Laser Development and Its Research in Phase Contrast Image Application
title_full_unstemmed X-ray Laser Development and Its Research in Phase Contrast Image Application
title_sort x-ray laser development and its research in phase contrast image application
publishDate 2019
url http://ndltd.ncl.edu.tw/handle/95ra87
work_keys_str_mv AT chiuweipin xraylaserdevelopmentanditsresearchinphasecontrastimageapplication
AT qiūwěipíng xraylaserdevelopmentanditsresearchinphasecontrastimageapplication
AT chiuweipin xguāngléishèkāifāyǔqízàixiāngwèiduìbǐyǐngxiàngyīngyòngzhīyánjiū
AT qiūwěipíng xguāngléishèkāifāyǔqízàixiāngwèiduìbǐyǐngxiàngyīngyòngzhīyánjiū
_version_ 1719230686959763456