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GaAs光电阴极激活时Cs的吸附效率研究
引用本文:牛军,张益军,常本康,熊雅娟. GaAs光电阴极激活时Cs的吸附效率研究[J]. 物理学报, 2011, 60(4): 44209-044209
作者姓名:牛军  张益军  常本康  熊雅娟
作者单位:南京理工大学电子工程与光电技术学院,南京 210094
基金项目:国家自然科学基金,南京理工大学自主科研专项计划
摘    要:从NEA GaAs光电阴极的激活光电流曲线发现,当系统真空度不很高时,在首次Cs激活阶段,表面掺杂浓度较低的阴极材料,其光电流产生需要的时间也较长.同时,随着系统真空度的提高,这种时间上的差异又变得不再明显.该现象表明,Cs原子在阴极表面的吸附效率同表面层掺杂浓度以及系统真空度之间有直接的联系.为定量分析这种关系,本文根据实验数据建立了Cs在阴极表面吸附效率的数学模型,利用该模型仿真的结果同实验现象非常符合.该研究对进一步开展变掺杂阴极结构设计和制备工艺研究具有重要的价值和意义.关键词:GaAs光电阴极吸附效率真空度表面掺杂浓度

关 键 词:GaAs光电阴极  吸附效率  真空度  表面掺杂浓度
收稿时间:2010-06-19

Adsorption efficiency of cesium in activation process for GaAs photocathode
Niu Jun,Zhang Yi-Jun,Chang Ben-Kang,Xiong Ya-Juan. Adsorption efficiency of cesium in activation process for GaAs photocathode[J]. Acta Physica Sinica, 2011, 60(4): 44209-044209
Authors:Niu Jun  Zhang Yi-Jun  Chang Ben-Kang  Xiong Ya-Juan
Affiliation:School of Electronic Engineering and Optoelectronic Technology, Nanjing University of Science and Technology, Nanjing 210094, China
Abstract:Photocathode materials with the lower surface doping density need a longer time to raise photocurrent in the first Cesium activation process when the system vacuum level is not high enough, which can be found from the photocurrent curves during the activation of negative-electron-affinity (NEA) GaAs photocathodes. At the same time, with the enhancement of system vacuum level, these differences in time will become unobvious. It is indicated that the adsorption efficiency of Cesium on cathode surface has the direct relationships with the surface doping density and system vacuum level. In order to analyze these relationships quantitively, in this paper, a mathematical model of the adsorption efficiency of Cesium on cathode surface is established according to the experimental data. The simulation results by the model are in good accordance with the experimental phenomenon. This study is of very important value and significance for the further investigation of structure design and preparation techniques for varying doping GaAs photocathode materials.
Keywords:GaAs photocathode  adsorption efficiency  vacuum level  surface doping density
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