First principle study on NEA GaN photocathode

Bin Ren; Feng Shi; Hui Guo; Zhaotan Jiang; Hongchang Cheng; Gangcheng Jiao; Zhuang Miao; Liu Feng

First principle study on NEA GaN photocathode

Bin Ren, Feng Shi, Hui Guo, Zhaotan Jiang, Hongchang Cheng, Gangcheng Jiao, Zhuang Miao, Liu Feng

School of Physics

Research output: Contribution to journal › Article › peer-review

2 Citations (Scopus)

Abstract

Using the projected augmented wave potential based upon the density functional theory within the gradual gradient approximation approach, after the optimization of wurtzite structure GaN, the affinity variation of Cs atoms adsorbed on GaN (0001)A surface was calculated, which proving that an effective GaN-Cs dipole layer was formed, and be good for electrons escaping form the substrate. The electronic structure of adsorbed Cs and O on GaN (0001)A surface was also calculated, which pointed out the bonding of Cs and GaN substrate. Furthermore, the internal quantum efficiency of reflect photocathode of GaN material on various minority carrier diffusion length were derived from dielectric functions theoretically. The calculated results demonstrate that GaN (0001)A surface is an excellent emitter for visible-blind photocathode, and the efficiency at 254nm can reach up to 60%, far more than other alkali halide UV photocathodes.

Original language	English
Pages (from-to)	2752-2756
Number of pages	5
Journal	Hongwai yu Jiguang Gongcheng/Infrared and Laser Engineering
Volume	44
Issue number	9
Publication status	Published - 25 Sept 2015

Keywords

First principle
GaN
NEA
Visible-blind

Cite this

Ren, B., Shi, F., Guo, H., Jiang, Z., Cheng, H., Jiao, G., Miao, Z., & Feng, L. (2015). First principle study on NEA GaN photocathode. Hongwai yu Jiguang Gongcheng/Infrared and Laser Engineering, 44(9), 2752-2756.

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abstract = "Using the projected augmented wave potential based upon the density functional theory within the gradual gradient approximation approach, after the optimization of wurtzite structure GaN, the affinity variation of Cs atoms adsorbed on GaN (0001)A surface was calculated, which proving that an effective GaN-Cs dipole layer was formed, and be good for electrons escaping form the substrate. The electronic structure of adsorbed Cs and O on GaN (0001)A surface was also calculated, which pointed out the bonding of Cs and GaN substrate. Furthermore, the internal quantum efficiency of reflect photocathode of GaN material on various minority carrier diffusion length were derived from dielectric functions theoretically. The calculated results demonstrate that GaN (0001)A surface is an excellent emitter for visible-blind photocathode, and the efficiency at 254nm can reach up to 60%, far more than other alkali halide UV photocathodes.",

keywords = "First principle, GaN, NEA, Visible-blind",

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TY - JOUR

T1 - First principle study on NEA GaN photocathode

AU - Ren, Bin

AU - Shi, Feng

AU - Guo, Hui

AU - Jiang, Zhaotan

AU - Cheng, Hongchang

AU - Jiao, Gangcheng

AU - Miao, Zhuang

AU - Feng, Liu

PY - 2015/9/25

Y1 - 2015/9/25

N2 - Using the projected augmented wave potential based upon the density functional theory within the gradual gradient approximation approach, after the optimization of wurtzite structure GaN, the affinity variation of Cs atoms adsorbed on GaN (0001)A surface was calculated, which proving that an effective GaN-Cs dipole layer was formed, and be good for electrons escaping form the substrate. The electronic structure of adsorbed Cs and O on GaN (0001)A surface was also calculated, which pointed out the bonding of Cs and GaN substrate. Furthermore, the internal quantum efficiency of reflect photocathode of GaN material on various minority carrier diffusion length were derived from dielectric functions theoretically. The calculated results demonstrate that GaN (0001)A surface is an excellent emitter for visible-blind photocathode, and the efficiency at 254nm can reach up to 60%, far more than other alkali halide UV photocathodes.

AB - Using the projected augmented wave potential based upon the density functional theory within the gradual gradient approximation approach, after the optimization of wurtzite structure GaN, the affinity variation of Cs atoms adsorbed on GaN (0001)A surface was calculated, which proving that an effective GaN-Cs dipole layer was formed, and be good for electrons escaping form the substrate. The electronic structure of adsorbed Cs and O on GaN (0001)A surface was also calculated, which pointed out the bonding of Cs and GaN substrate. Furthermore, the internal quantum efficiency of reflect photocathode of GaN material on various minority carrier diffusion length were derived from dielectric functions theoretically. The calculated results demonstrate that GaN (0001)A surface is an excellent emitter for visible-blind photocathode, and the efficiency at 254nm can reach up to 60%, far more than other alkali halide UV photocathodes.

KW - First principle

KW - GaN

KW - NEA

KW - Visible-blind

UR - http://www.scopus.com/inward/record.url?scp=84946143907&partnerID=8YFLogxK

M3 - Article

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SN - 1007-2276

VL - 44

SP - 2752

EP - 2756

JO - Hongwai yu Jiguang Gongcheng/Infrared and Laser Engineering

JF - Hongwai yu Jiguang Gongcheng/Infrared and Laser Engineering

IS - 9

ER -

First principle study on NEA GaN photocathode

Abstract

Keywords

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