摘要
本文对InGaAsP/InP(DC-PBH)激光器掩埋异质结液相外延生长中的几个关键工艺问题进行了研究,提出了获得有利于沟道掩埋生长的理想沟道几何图形的新的腐蚀配方(Br_2/HBr),对二次外延再生长光刻腐蚀面损伤层和有害杂质的去除采用了阳极氧化工艺,同时探索了利用二次外延过程中Zn扩散来控制限制层(3)掺杂的新方法,在研究基础上制造了重现性好且性能良好的1.3μm激光二极管,室温时,阈值电流最低小于25mA,典型值为30mA,在60mA直流电流的驱动下,光输出功率高达12.5mW。
Some key points for LPE growth of InGaAsP/InP buried heterostructure are investigated in thispaper. A new etchant-Br2/HBr system was put forward to obtain an ideal double channel geometry shape suitable to the growth of the BH structure. Anodization and etching procedures were adopted to remove effectively the damaged surface layer and poison impurities due to unequal dissolution rates of the crystal components by the photolithographic etchants. In addition,the novel processing procedure for controlling the axial p-n junction position by Zn diffsion during the 2 nd step LPE was also explored.The good performance of 1.3μm LD has been achieved with threshold current minimum of 25mA,typically 30mA and light output power up to 12.5mW driven by 60mA d-c current at room temperature.
出处
《光子学报》
EI
CAS
CSCD
1996年第10期893-897,共5页
Acta Photonica Sinica