Title :
Facet Passivation of GaAs Based LDs by N2 Plasma Pretreatment and RF Sputtered AlxNy Film Coating
Author :
Lu Zhou ; Xin Gao ; Yunhua Wang ; Liuyang Xu ; Baoshan Jia ; Duanyuan Bai ; Baoxue Bo
Author_Institution :
State Key Lab. of High Power Semicond. Lasers, Changchun Univ. of Sci. & Technol., Changchun, China
Abstract :
RF sputtered AlxNy thin film is deposited on the cavity surface of LD (laser diode) by N2 plasma pretreatment. Firstly optimize the preparation process of AlxNy film, and test the chemical ratio, reflectivity and optical absorption of the optimized AlxNy film by EDX, spectrophotometer and surface thermal lens technology respectively, which verify the feasibility of AlxNy used for facet coating film in LD process; then optimize the N2 plasma cleaning process, and use PL to find out that sputtered AlxNy passivation film by N2 plasma pretreatment can increase the GaAs surface photoluminescence efficiency by 119%. Finally, a 10 nm thick AlxNy passivation film is coated on cavity surface of LD with optimized N2 plasma pretreatment, which leads to a higher reliability than the traditional LD.
Keywords :
III-V semiconductors; X-ray chemical analysis; aluminium compounds; gallium arsenide; laser cavity resonators; laser reliability; nitrogen; passivation; photoluminescence; plasma materials processing; semiconductor lasers; semiconductor thin films; spectrophotometers; sputter deposition; AlN; EDX; GaAs; N2; RF sputtered film coating; RF sputtered thin film; X-ray chemical analysis; chemical ratio; facet coating film; facet passivation; laser diodes; laser reliability; optical absorption; plasma cleaning process; plasma pretreatment; size 10 nm; spectrophotometer; surface photoluminescence efficiency; surface thermal lens technology; Cleaning; Gallium arsenide; Passivation; Plasmas; Radio frequency; Sputtering; LD; RF sputtering; passivation; plasma; reliability;
Journal_Title :
Lightwave Technology, Journal of
DOI :
10.1109/JLT.2013.2265157
