Li L H, Zhu J X, Chen L, Davies A G, Linfield E H
Opt Express. 2015 Feb 9;23(3):2720-9. doi: 10.1364/OE.23.002720.
The technique of molecular beam epitaxy has recently been used to demonstrate the growth of terahertz frequency GaAs/AlGaAs quantum cascade lasers (QCL) with Watt-level optical output powers. In this paper, we discuss the critical importance of achieving accurate layer thicknesses and alloy compositions during growth, and demonstrate that precise growth control as well as run-to-run growth reproducibility is possible. We also discuss the importance of minimizing background doping level in maximizing QCL performance. By selecting high-performance active region designs, and optimizing the injection doping level and device fabrication, we demonstrate total optical (two-facet) output powers as high as 1.56 W.
分子束外延技术最近已被用于展示太赫兹频率的 GaAs/AlGaAs 量子级联激光器(QCL)的生长,其光输出功率可达瓦级。在本文中,我们讨论了生长过程中实现精确层厚和合金成分的至关重要性,并证明了精确的生长控制以及不同批次生长的可重复性是可行的。我们还讨论了在最大化 QCL 性能方面将背景掺杂水平降至最低的重要性。通过选择高性能有源区设计,并优化注入掺杂水平和器件制造工艺,我们展示了高达 1.56 W 的总光学(双面)输出功率。