| ID | 111218 |
| Title Alternative | Applying Pyroelectric Crystal to Small High Energy X-Ray Source
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| Author |
Hiro, Eisuke
Kyoto University
Yamamoto, Takashi
The University of Tokushima
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Kawai, Jun
Kyoto University
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| Keywords | 焦電結晶
X線源
ポータブル装置
蛍光X線分析
Pyroelectric crystal
X-ray source
Portable device
X-ray fluorescence analysis
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| Content Type |
Journal Article
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| Description | 焦電結晶を用いてポータブルサイズかつ高エネルギーのX線源を製作し,発生するX線のエネルギーおよび時間当たりのX線強度を評価した.代表的な焦電結晶であるLiTaO3 単結晶を用い,条件や構造を変えて3つのX 線管を製作した.最も高いエネルギーのX線まで発生したさせたX線管では,これまでのところ3 V,1.2 Aの電源で80 keV 程度までのエネルギーのX 線が確認できた.また,この線源を用いて真鍮板の蛍光X 線スペクトルを測定し,Cu とZn の特性X線を確認できた.さらに試料を電子により励起することにより特性X線分析を考案した.この方法と蛍光X線分析を,真鍮板を試料として比較した結果,ZnのKβ線のピークをよりはっきり確認することができた.
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| Description Alternative | A portable size and high energy X-ray source is produced by using the pyroelectric crystal. Energy and intensity of X-rays which it generates are evaluated. Three X-ray tubes with different condition and structure are produced using LiTaO3 single-crystalline that was a typical pyroelectric crystal. The highest X-ray energy generated by an X-ray tube was 80 keV with the power supply of 3 V and 1.2 A. A fluorescent X-ray spectrum of brass plate, which contains characteristic X-rays of Cu and Zn, is measured by using this X-ray tube. The characteristic X-rays analysis by exciting the sample with electrons is designed. When the brass plate is measured as a sample by using this method, characteristic X-rays of Zn is able to be confirmed clearly.
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| Journal Title |
Advances in X-Ray Chemical Analysis, Japan
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| ISSN | 09117806
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| NCID | AN0000592X
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| Publisher | 日本分析化学会
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| Volume | 41
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| Start Page | 195
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| End Page | 200
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| Published Date | 2010-03-31
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| Rights | ©社団法人日本分析化学会X線分析研究懇談会
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| EDB ID | |
| FullText File | |
| language |
jpn
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| TextVersion |
Publisher
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| departments |
Science and Technology
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