光电阴极的研究进展*

doi:10.13385/j.cnki.vacuum.2020.03.10

真空 ›› 2020, Vol. 57 ›› Issue (3): 42-48.doi: 10.13385/j.cnki.vacuum.2020.03.10

光电阴极的研究进展^*

石文奇^1,3, 张连正¹, 陆玉新², 田宏¹, 朱虹¹, 赵恒邦¹, 王小霞¹, 刘燕文¹

1.中国科学院空天信息创新研究院,北京 100190;
2.天津交通职业学院,天津 300110;
3.中国科学院大学,北京 100049

收稿日期:2019-03-30 发布日期:2020-06-18
通讯作者: 王小霞,研究员。
作者简介:石文奇（1966-）,男,天津市人,硕士生。
基金资助:
国家自然科学基金项目(批准号：61771454);总装预研基金项目(批准号31512010404-1)

Research Progress of Photocathode

SHI Wen-qi^1,3, ZHANG Lian-zheng¹, LU Yu-xin², TIAN Hong¹, ZHU Hong¹, ZHAO Heng-bang¹, WANG Xiao-xia¹, LIU Yan-wen¹

1. Aerospace Information Research Institute, Chinese Academy of Science, Beijing 100080, China;
2. Tianjin Traffic Vocational Institute, Tianjin 300110, China;
3. University of Chinese Academy of Sciences, Beijing 100049, China

Received:2019-03-30 Published:2020-06-18

摘要/Abstract

摘要： 光电阴极的材料决定了光电发射的量子效率、暗发射电流和出射电子能量分布等重要性能。本文介绍各种类型的光电阴极发射材料,包括碱金属和半导体材料。其中重点介绍半导体材料中的多碱光电阴极和负电子亲和势（NEA）光电阴极,并对多碱光电阴极的制备流程及性能测试和影响NEA光电阴极量子效率等因素进行详细的分析。

关键词: 光电发射, 多碱光电阴极, NEA光电阴极, 量子效率

Abstract: The material of photocathode determines the important properties of photoemission, such as quantum efficiency, dark emission current and energy distribution of emitted electrons. Various types of photocathode emission materials, including alkali metal and semiconductor materials, are introduced in this paper. Among them, the multi-alkali photocathode and negative electron affinity (NEA) photocathode in semiconductor materials are mainly introduced, and the preparation process and performance test of the multi-alkali photocathode and the factors affecting the quantum efficiency of NEA photocathode are analyzed in detail.

Key words: photoelectric emission, multi-alkali photocathode, NEA photocathode, quantum efficiency

中图分类号:

O462.3

石文奇, 张连正, 陆玉新, 田宏, 朱虹, 赵恒邦, 王小霞, 刘燕文. 光电阴极的研究进展^*[J]. 真空, 2020, 57(3): 42-48.

SHI Wen-qi, ZHANG Lian-zheng, LU Yu-xin, TIAN Hong, ZHU Hong, ZHAO Heng-bang, WANG Xiao-xia, LIU Yan-wen. Research Progress of Photocathode[J]. VACUUM, 2020, 57(3): 42-48.

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光电阴极的研究进展^*

Research Progress of Photocathode

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