Effect of lateral diffusion of photoelectrons in the reflection-mode varied-doping AlGaN photocathode on resolution

To obtain a high resolution of the reflection-mode AlGaN photocathode by establishing the modulation transfer function (MTF) model of this photocathode, the influence of emission layer thickness T-e, electron diffusion length L-d, recombination velocity at back-interface V-b, and optical absorption coefficient alpha on MTF for varied-doping and uniform-doping Al0.42Ga0.58N photocathodes have been given. The computational results suggest that varied-doping structure has great potentiality in improving both resolution and quantum efficiency of the reflection-mode Al0.42Ga0.58N photocathode. This improvement is mainly attributed to the reduced lateral diffusion of photoelectrons, which is caused by an electric field generated by the varied-doping structure, and hence the photoelectron transportation towards photocathode surface is promoted. (C) 2021 Optical Society of America