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    Journals >Optoelectronic Technology >Volume 42 >Issue 4 >Page 248 > Article
    • Optoelectronic Technology
    • Vol. 42, Issue 4, 248 (2022)
    Development of Field Assisted Photocathode
    Jiangnan YUE1, Yuqing LI1, Xinlong CHEN2, Pengxiao XU2..., Wenjuan DENG1, Xincun PENG1 and Jijun ZOU1,*|Show fewer author(s)
    Author Affiliations
  • 1State Key Laboratory of Nuclear Resources and Environment, School of Mechanical and Electronic Engineering, East China University of Technology, Nanchang 33003,CHN
  • 2The 55th Research Institute of China Electronics Technology Group Corporation,Nanjing 10016,CHN
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    DOI: 10.19453/j.cnki.1005-488x.2022.04.002 Cite this Article
    Jiangnan YUE, Yuqing LI, Xinlong CHEN, Pengxiao XU, Wenjuan DENG, Xincun PENG, Jijun ZOU. Development of Field Assisted Photocathode[J]. Optoelectronic Technology, 2022, 42(4): 248 Copy Citation Text show less
    Band diagram of the transferred electron photocathode
    Fig. 1. Band diagram of the transferred electron photocathode
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    Schematic of the energy bands of the InP/InGaAsP/InP photocathode[23]
    Fig. 2. Schematic of the energy bands of the InP/InGaAsP/InP photocathode[23]
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    Cross-sectional schematic of a p/n junction InP/InGaAsP heterostructure field-assisted photocathode[7]
    Fig. 3. Cross-sectional schematic of a p/n junction InP/InGaAsP heterostructure field-assisted photocathode[7]
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    Schematic of the energy bands of the InP/InGaAs photocathode[6]
    Fig. 4. Schematic of the energy bands of the InP/InGaAs photocathode[6]
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    Cross-sectional view of the photocathode of the nanoscale grating antenna[27]
    Fig. 5. Cross-sectional view of the photocathode of the nanoscale grating antenna[27]
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    InP/In0.53Ga0.47As/InP cathode structure[17]
    Fig. 6. InP/In0.53Ga0.47As/InP cathode structure[17]
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    Schematic of the TE photocathode structure[18]
    Fig. 7. Schematic of the TE photocathode structure[18]
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    Schematic of the energy bands of the InGaAs/InAsP/InP photocathode[5]
    Fig. 8. Schematic of the energy bands of the InGaAs/InAsP/InP photocathode[5]
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    Cross-sectional view of n-InAs0.4P0.6/p-InAs0.4P0.6/p- In0.7Ga0.3As field-assisted photocathode[8]
    Fig. 9. Cross-sectional view of n-InAs0.4P0.6/p-InAs0.4P0.6/p- In0.7Ga0.3As field-assisted photocathode[8]
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    Jiangnan YUE, Yuqing LI, Xinlong CHEN, Pengxiao XU, Wenjuan DENG, Xincun PENG, Jijun ZOU. Development of Field Assisted Photocathode[J]. Optoelectronic Technology, 2022, 42(4): 248
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