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Acta Optica Sinica, Volume. 44, Issue 20, 2004001(2024)

Analysis of Count Rate Stability Improvement of High-Temperature Photomultiplier Tubes Based on Thermal Cycling Post-Treatment

Shikai Yan1,2, Shuguang Si1,2、*, Tao Jiang1, Liang Wang1,2, Xingchao Wang1,2, Ling Ren1,2, Kai Wu1,2, Yiyi Wang3, Bo Qi3, Muchun Jin1,2, Zhen Jin1,2, Guorui Huang1,2, Yunchao Tu1, Ning Wang1, and Zuolun Chen1
Author Affiliations
  • 1North Night Vision Technology (Nanjing) Research Institute Co., Ltd., Nanjing 211106, Jiangsu , China
  • 2Science and Technology on Low-Light-Level Night Vision Laboratory, Xi’an 710065, Shaanxi , China
  • 3China Oilfield Services Limited, Sanhe 065200, Hebei , China
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    [1] Zhang Z J, Song Y L. Miniaturization high temperature photomultiplier used for oil well logging[J]. Nuclear Electronics & Detection Technology, 7, 162-165(1987).

    [2] Kacper Z, Andrzej B, Ivan S et al. Photomultiplier tube signal conditioning for high-temperature applications[J]. Nukleonika, 68, 91-96(2023).

    [3] Causse J P. New rugged high-temperature photomultipliers[J]. IRE Transactions on Nuclear Science, 7, 66-71(1960).

    [4] Chen X Y. High temperature photomultiplier tube[J]. Physics, 15, 625-626(1986).

    [5] Qin X, Wang H L. Reasonable selection and correct use of photomultiplier tubes[J]. Logging and Perforation, 8, 4(2005).

    [6] Jia H T, Peng H, Deng L et al. LWD gamma measurement system[J]. Microcomputer & Its Applications, 33, 18-21(2014).

    [7] Ren X R, Zhao F Y. Property testing method on photomultiplier tubes used in nuclear measurement[J]. Journal of Test and Measurement Technology, 19, 167-172(2005).

    [8] Yan S K, Si S G, Wang X C et al. Influence of photocathode preparation techniques on performance of high-temperature photomultiplier tubes[J]. Acta Optica Sinica, 43, 2304001(2023).

    [9] Shestakova I, Philip O, Wiedemann J et al. Comparative study of ruggedness and reliability of gamma ray detectors based on a commercial high temperature PMT and a Schlumberger PMT at temperatures up to 185[C], 21-28(2017).

    [10] Xiao Y C, Xiang S H, Zhao Z Y et al. Design of high reliability nuclear logging probe[J]. Procedia Engineering, 7, 223-228(2010).

    [11] He J, Fu R C, Hao Z Q et al. Influence of temperature compensation mode on lithologic density logging values[J]. Petroleum Tubular Goods & Instruments, 9, 71-74(2023).

    [12] Wang J H. Application of temperature compensation technology in well logging tools[J]. Petroleum Instruments, 86-89(2006).

    [13] Roth S J. Investigation of cathode uniformity and transit time spread of multiplier phototubes[J]. IRE Transactions on Nuclear Science, 7, 57-61(1960).

    [14] Wang J K, Ma T M, Shang Z Q. Tests of the photomultipliers type GDB-30 for their performance at high temperature[J]. Nuclear Electronics & Detection Technology, 3, 31-35(1983).

    [15] Zhang Z J. Development of high temperature photomultiplier for nuclear well logging[J]. Nuclear Electronics & Detection Technology, 6, 21-26(1986).

    [16] Wei L, Yin G P. Application of the photomultiplier tube to logging tools[J]. Petroleum Instruments, 24, 26-28, 100(2010).

    [17] Hao F Z. Determination and application of photomultiplier tube flat curve in radioactive logging tool[J]. Coal Geology & Exploration, 9, 40-45(1981).

    [18] Gaertner G, Knapp W, Forbes R G. Modern developments in vacuum electron sources[M]. Topics in applied physics(2020).

    [19] Liu X Y, Qian Y S, Wei J W. Automatic test system for progressive gain of dynode photomultiplier tube[J]. Journal of Applied Optics, 43, 1117-1123(2022).

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    Shikai Yan, Shuguang Si, Tao Jiang, Liang Wang, Xingchao Wang, Ling Ren, Kai Wu, Yiyi Wang, Bo Qi, Muchun Jin, Zhen Jin, Guorui Huang, Yunchao Tu, Ning Wang, Zuolun Chen. Analysis of Count Rate Stability Improvement of High-Temperature Photomultiplier Tubes Based on Thermal Cycling Post-Treatment[J]. Acta Optica Sinica, 2024, 44(20): 2004001

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    Paper Information

    Category: Detectors

    Received: Apr. 22, 2024

    Accepted: May. 28, 2024

    Published Online: Oct. 12, 2024

    The Author Email: Si Shuguang (sishuguang@126.com)

    DOI:10.3788/AOS240881

    CSTR:32393.14.AOS240881

    Topics

    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology