The Influences of Inorganic Scintillator Optical Fiber Radiation Dosimeter in Some Conditions | Zendy

Zhuang Qin | Zendy; Yaosheng Hu | Zendy; Yu Ma | Zendy; Wenhui Zhao | Zendy; Weimin Sun | Zendy; Tianci Xie | Zendy; Chuntong Jiang | Zendy; Daxin Zhang | Zendy; Ziyin Chen | Zendy; Boran Wang | Zendy; He Tian | Zendy; Elfed Lewis | Zendy

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The Influences of Inorganic Scintillator Optical Fiber Radiation Dosimeter in Some Conditions

Author(s) -

Zhuang Qin,

Yaosheng Hu,

Yu Ma,

Wenhui Zhao,

Weimin Sun,

Tianci Xie,

Chuntong Jiang,

Daxin Zhang,

Ziyin Chen,

Boran Wang,

He Tian,

Elfed Lewis

Publication year - 2017

Publication title -

optics and photonics journal

Language(s) - English

Resource type - Journals

eISSN - 2160-889X

pISSN - 2160-8881

DOI - 10.4236/opj.2017.78b011

Subject(s) - scintillator , dosimeter , optical fiber , radiation , materials science , optics , saturation (graph theory) , noise (video) , optoelectronics , computer science , physics , detector , mathematics , combinatorics , artificial intelligence , image (mathematics)

peer-reviewedIn order to meet the increasing demands of modern radiotherapy, real time in-vivo dose measurement has recently attracted significant attention. A small, flexible optical fiber radiation dosimeter, with high signal-to-noise ratio (SNR) that employs inorganic scintillator materials is presented. In this paper, some properties are investigated under special conditions, such as saturation properties when the intensity of the X-Ray is increased and the influence of the temperature of the environment. These properties are important to practical considerations if the sensor is to be successfully deployed in-vivo

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