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    Journals >Laser & Optoelectronics Progress >Volume 59 >Issue 23 >Page 2332001 > Article
    • Laser & Optoelectronics Progress
    • Vol. 59, Issue 23, 2332001 (2022)
    Study on Gain Uniformity of Microchannel Plate
    Pokun Deng, Kaixuan Lin, Qiuyan Luo, Jinghua Long..., Dong Wang, Yunfei Lei, Junkun Huang, Yong Wang, Houzhi Cai, Jinyuan Liu and Lihong Niu*|Show fewer author(s)
    Author Affiliations
  • Key Laboratory of Optoelectronic Devices and Systems of Ministry of Education and Guangdong Province, College of Physics and Optoelectronic Engineering, Shenzhen University, Shenzhen 518060, Guangdong, China
    • show less
    DOI: 10.3788/LOP202259.2332001 Cite this Article Set citation alerts
    Pokun Deng, Kaixuan Lin, Qiuyan Luo, Jinghua Long, Dong Wang, Yunfei Lei, Junkun Huang, Yong Wang, Houzhi Cai, Jinyuan Liu, Lihong Niu. Study on Gain Uniformity of Microchannel Plate[J]. Laser & Optoelectronics Progress, 2022, 59(23): 2332001 Copy Citation Text show less
    Microstrip line transmission equivalent circuit per unit length
    Fig. 1. Microstrip line transmission equivalent circuit per unit length
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    Variation curve of voltage amplitude with transmission distance
    Fig. 2. Variation curve of voltage amplitude with transmission distance
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    Variation curve of MCP gain with transmission distance
    Fig. 3. Variation curve of MCP gain with transmission distance
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    Variation curves of MCP gain with transmission distance under different voltages
    Fig. 4. Variation curves of MCP gain with transmission distance under different voltages
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    Variation curves of voltage with transmission distance under different compensation coefficients
    Fig. 5. Variation curves of voltage with transmission distance under different compensation coefficients
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    Variation curves of MCP gain with transmission distance under different compensation coefficients
    Fig. 6. Variation curves of MCP gain with transmission distance under different compensation coefficients
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    Voltage attenuation with transmission distance under different end reflection coefficients
    Fig. 7. Voltage attenuation with transmission distance under different end reflection coefficients
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    Gain attenuation curves of microstrip lines with different reflection coefficients
    Fig. 8. Gain attenuation curves of microstrip lines with different reflection coefficients
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    Width variation of exponentially tapered microstrip lines with different attenuation coefficients
    Fig. 9. Width variation of exponentially tapered microstrip lines with different attenuation coefficients
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    Voltage variation of exponentially tapered microstrip lines with different attenuation coefficients
    Fig. 10. Voltage variation of exponentially tapered microstrip lines with different attenuation coefficients
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    Gain variation of exponentially tapered microstrip lines with different attenuation coefficients
    Fig. 11. Gain variation of exponentially tapered microstrip lines with different attenuation coefficients
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    Voltage variation with distance under voltage and end reflection compensations
    Fig. 12. Voltage variation with distance under voltage and end reflection compensations
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    Structure of intermediate tapered microstrip line
    Fig. 13. Structure of intermediate tapered microstrip line
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    Variation of voltage attenuation with transmission distance in compensation model
    Fig. 14. Variation of voltage attenuation with transmission distance in compensation model
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    Variation of MCP gain with transmission distance in compensation model
    Fig. 15. Variation of MCP gain with transmission distance in compensation model
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    Abstract
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    References (12)
    Cited By (2)
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    Pokun Deng, Kaixuan Lin, Qiuyan Luo, Jinghua Long, Dong Wang, Yunfei Lei, Junkun Huang, Yong Wang, Houzhi Cai, Jinyuan Liu, Lihong Niu. Study on Gain Uniformity of Microchannel Plate[J]. Laser & Optoelectronics Progress, 2022, 59(23): 2332001
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    Paper Information
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