Effects of the composition of diffusion source on the surface concentration and effective surface diffusivity of Zn in n-GaSb

Abstract: Understanding the Zn diffusion behavior in GaSb is very important to accurately control the distribution of Zn during the fabrication of photoelectric devices. The surface concentration and effective surface diffusivity are two key parameters for modeling the Zn profile in GaSb. The experimental results indicated that when the diffusion temperature and time are kept unchanged, the diffusion profiles with pure Zn, Zn-Sb, and Zn-Ga sources differ in the surface concentration and effective surface diffusivity. To… Show more

“…The InAsSb based hetero p-i-n photodetector was grown on n-type Te-doped GaSb substrate by RIBER-32 molecular beam epitaxy (MBE) system. The band gap of GaSb at room temperature is 0.72 eV [23], which will not introduce disturbance for absorption in MWIR range. The schematic design of our photodetector and its energy band diagram are shown in Fig.…”

InAs0.9Sb0.1-based hetero-p-i-n structure grown on GaSb with high mid-infrared photodetection performance at room temperature

“…The InAsSb based hetero p-i-n photodetector was grown on n-type Te-doped GaSb substrate by RIBER-32 molecular beam epitaxy (MBE) system. The band gap of GaSb at room temperature is 0.72 eV [23], which will not introduce disturbance for absorption in MWIR range. The schematic design of our photodetector and its energy band diagram are shown in Fig.…”

InAs0.9Sb0.1-based hetero-p-i-n structure grown on GaSb with high mid-infrared photodetection performance at room temperature

“…Спо-собы оптимизации процесса диффузии рассматриваются с точки зрения разных источников цинка (например, Ga−Zn) [4], роли окислов на поверхности перед про-цессом диффузии [5], а также состояния поверхности, в частности ее микрорельефа, который, по мнению авторов, может улучшать параметры приборов на основе этих структур [6].…”

Формирование p-эмиттера с участием сурфактантов в GaAs фотоэлектрических преобразователях