An Experimental and Theoretical Study of the Effective Length of Embedded Scintillator Materials in End-Constructed Optical Fiber Radiation Sensing Probes
Yichen Li, Yong Feng, Jingjing Wang, Bo He, Ziyin Chen, Haojie Yang, Qieming Shi, Wenjing Hao, Jinqian Qian, Jiashun Luo, Jinhui Cui, Yongjun Liu, Tao Geng, Elfed Lewis, Weimin Sun

TL;DR
This study determines the optimal length of scintillator material in radiation sensing probes to improve performance and simplify fabrication.
Contribution
The study introduces the concept of 'effective length of scintillator' to optimize probe design.
Findings
The optimal effective length of the scintillator was found to be 0.62 mm.
Shorter scintillators can maintain signal quality while improving spatial resolution.
Experimental results matched theoretical predictions, validating the model.
Abstract
What are the main findings? A method for constructing a simpler scintillator optical fiber radiation sensing probe is described.The efficiency of coupling scintillator luminescence into the optical fiber was analyzed, yielding the optimal length value for the scintillator sensing probe. A method for constructing a simpler scintillator optical fiber radiation sensing probe is described. The efficiency of coupling scintillator luminescence into the optical fiber was analyzed, yielding the optimal length value for the scintillator sensing probe. What is the implication of the main finding? To provide a base reference for sensor fabrication, thereby further enhancing the performance of fiber-optic radiation probes in terms of spatial resolution, signal-to-noise ratio, and other aspects. To provide a base reference for sensor fabrication, thereby further enhancing the performance of…
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Taxonomy
TopicsAdvanced Radiotherapy Techniques · Luminescence Properties of Advanced Materials · Radiation Detection and Scintillator Technologies
