Laboratory Nuclear-Physics Methods for Determining the Characteristics of Charged Particle Silicon Detectors

S. V. Artemov; G. A. Radyuk; S. A. Radjapov; A. A. Karakhodzhaev; Ya. S. Abdullaeva; V. P. Yakushev; O. Sh. Zhuraev

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Laboratory Nuclear-Physics Methods for Determining the Characteristics of Charged Particle Silicon Detectors

机译：测定带电粒子硅探测器特性的实验室核物理方法

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A review is presented of "nontraditional" laboratory nuclear-physical methods for determining key parameters of charged-particle semiconductor detectors, such as the sensitive depth and the energy resolution. The methods for measuring the sensitive depth are based on the peculiarities in interactions of radiation from standard α, β, and γ sources and monochromatic neutrons with the detector materials and require that several "reference" detectors with known characteristics be available. Using the proposed methods, it is possible to preliminarily estimate the serviceability of detectors before employing them in expensive experiments, e.g., on accelerator beams.

机译：本文介绍了用于确定带电粒子半导体探测器关键参数（如敏感深度和能量分辨率）的“非传统”实验室核物理方法。测量敏感深度的方法基于标准α，β和γ源以及单色中子与探测器材料之间的辐射相互作用的特殊性，并且需要具有已知特性的多个“参考”探测器。使用提出的方法，可以在将其用于昂贵的实验（例如加速器光束）之前，先对探测器的可维修性进行初步估算。

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《Instruments and Experimental Techniques》 |2013年第4期|共10页
作者
S. V. Artemov; G. A. Radyuk; S. A. Radjapov; A. A. Karakhodzhaev; Ya. S. Abdullaeva; V. P. Yakushev; O. Sh. Zhuraev;
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1. Laboratory Nuclear-Physics Methods for Determining the Characteristics of Charged Particle Silicon Detectors [J] . S. V. Artemov, G. A. Radyuk, S. A. Radjapov, Instruments and Experimental Techniques . 2013,第4期

机译：测定带电粒子硅探测器特性的实验室核物理方法
2. Comparison of charged particle identification using pulse shape discrimination and △E-E methods between front and rear side injection in silicon detectors [J] . N. Le Neindre, R. Bougault, S. Barlini, Nuclear Instruments & Methods in Physics Research . 2013,第FEBa11期

机译：硅探测器正面和背面注入之间使用脉冲形状判别和△E-E方法识别带电粒子的比较
3. Charged particle detector-related activities of the KACST radiation detector laboratory [J] . A. Maghrabi, M. Almutairi, A. Aldosari, Journal of Radiation Research and Applied Sciences . 2021,第1期

机译：KACST辐射探测器实验室的带电粒子探测器相关活动
4. A method to determine γ branching ratios using charged particle detectors for states in ~(18)O [C] . S. Pirrie, Tz. Kokalova, C. Wheldon, International Workshop on "State of the Art in Nuclear Cluster Physics" . 2018

机译：使用带电粒度检测器在〜（18）o中使用带电粒子检测器来确定γ分支比的方法
5. Measurements of secondary charged particle fragmentation cross sections produced by high energy heavy ions using silicon strip detectors. [D] . Stephens, Daniel Leon, Jr. 2002

机译：使用硅条检测器测量由高能重离子产生的次级带电粒子破碎截面。
6. A Monte Carlo Method for Determining the Response Relationship between Two Commonly Used Detectors to Indirectly Measure Alpha Particle Radiation Activity [O] . Christopher J. Tichacek, Mikalai M. Budzevich, Thaddeus J. Wadas, 2019

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7. A method to determine γ branching ratios using charged particle detectors for states in 18O [O] . S. Pirrie, Tz. Kokalova, C. Wheldon, 2018

机译：一种用180英尺处用带电粒度检测器确定γ分支比率的方法
8. RADIATION CHEMICAL STUDY OF PLASTICS FOR CHARGED PARTICLE TRACK REGISTRATION Pt. A. RADIATION CHEMISTRY OF CELLULOSIC CHARGED PARTICLE TRACK DETECTORS Pt. B. POSSIBLE METHODS OF ALPHA PARTICLE TRACK REGISTRATION WITH POLYTETRAFLUOROETHYLENE [R] . D. R. Sears, C. D. Bopp 1969

机译：带电粒子轨道配准塑料的辐射化学研究a.纤维素带电粒子轨道探测器的辐射化学pt。 B.用聚四氟乙烯进行阿尔法粒子轨道配准的可能方法

Laboratory Nuclear-Physics Methods for Determining the Characteristics of Charged Particle Silicon Detectors

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