InGaAs/InAlAs Quantum Cascade Lasers Grown by using Metal-organic Vapor-phase Epitaxy

Dong Hak Kim, Hae Yong Jeong, Young Su Choi, Deoksoo Park, Young-Jin Jeon, Dong-Hwan Jun
2017 Applied Science and Convergence Technology  
In this paper, InP-based InGaAs/InAlAs quantum cascade lasers(QCLs) providing nearly zero emission wavelength mismatch between the measured emission wavelength and the designed transition wavelength of QCLs is presented. The zero emission wavelength mismatch of QCLs influenced by both the accurate compositions and thicknesses of the low-pressure metal-organic vapor-phase epitaxy(MOVPE) grown InGaAs and InAlAs layers throughout the core and the abrupt composition transitions between InGaAs and
more » ... AlAs layers. The abrupt interfaces between InGaAs and InAlAs layers have been achieved throughout the core structure by means of controlling individually purged vent/run valves of a closed coupled showerhead reactor. In addition, maintaining substrate temperature constant during InGaAs/InAlAs core growth was a partial factor of uniformity improvement of QCLs. These approaches for reducing the possible discrepancies between the designed and MOVPE grown epitaxial structures could lead to improvement of QCL performance.
doi:10.5757/asct.2017.26.5.139 fatcat:ggsa7r3w4bcojahonsyzw5lypu