Dai Yayu, Liu Jianxun, Sun Xiujian, Lv Xiaocui, Feng Meixin, Zhang Shuming, Sun Qian, Wang Liangji, Ji Yun, Ikeda Masao, Yang Hui
Opt Express. 2024 May 20;32(11):19069-19075. doi: 10.1364/OE.521668.
InGaN-based long wavelength laser diodes (LDs) grown on Si are highly desirable for expanding the applications in laser display and lighting. Proper interface engineering of high In-content InGaN multi-quantum wells (MQWs) is urgently required for the epitaxial growth of InGaN-based long wavelength LD on Si, because the deteriorated interfaces and crystalline quality of InGaN MQWs can severely increase the photon scattering and further exacerbate the internal absorption loss of LDs, which prevents the lasing wavelength of InGaN-based LDs from extending. In this work, a significantly improved morphology and sharp interface of the InGaN active region are obtained by using a graded-compositional InGaN lower waveguide (LWG) capped with a 10-nm-thick AlGaN layer. The V-pits density of the InGaN LWG was one order of magnitude reduction from 4.8 × 10 to 3.6 × 10cm along with the root-mean-square surface roughness decreasing from 0.3 to 0.1 nm. Therefore, a room-temperature electrically injected 480 nm InGaN-based cyan LD grown on Si under pulsed current operation was successfully achieved with a threshold current density of 18.3 kA/cm.
在硅衬底上生长的基于氮化铟镓的长波长激光二极管(LD)对于拓展激光显示和照明应用非常理想。对于在硅衬底上外延生长基于氮化铟镓的长波长LD而言,迫切需要对高铟含量的氮化铟镓多量子阱(MQW)进行适当的界面工程处理,因为氮化铟镓MQW的界面恶化和晶体质量下降会严重增加光子散射,并进一步加剧LD的内部吸收损耗,这阻碍了基于氮化铟镓的LD的激射波长扩展。在这项工作中,通过使用覆盖有10纳米厚氮化铝镓层的渐变成分氮化铟镓下波导(LWG),获得了显著改善的氮化铟镓有源区形貌和清晰的界面。氮化铟镓LWG的V形坑密度从4.8×10降至3.6×10cm,降低了一个数量级,同时均方根表面粗糙度从0.3纳米降至0.1纳米。因此,在脉冲电流工作条件下,成功实现了在硅衬底上生长的室温电注入480纳米基于氮化铟镓的青色LD,其阈值电流密度为18.3kA/cm。
