OMVPE growth of highly strain-balanced GaInAs/AlInAs/InP for quantum cascade lasers

Autor: George W. Turner, D.R. Calawa, Frederick J. O'Donnell, S.G. Cann, Anish K. Goyal, Antonio Sanchez-Rubio, Joseph P. Donnelly, Leo J. Missaggia, Jason J. Plant, Robin K. Huang, C. A. Wang
Rok vydání: 2008
Předmět:
Zdroj: Journal of Crystal Growth. 310:5191-5197
ISSN: 0022-0248
Popis: The growth and characterization of highly strain-balanced (SB) GaInAs/AlInAs/InP quantum-well heterostructures for mid-infrared quantum cascade lasers (QCLs) are reported. Growth conditions were established to provide a step-flow growth mode, which is believed to be important for precise thickness control of the ultrathin (∼1 nm) epilayers of the injector/active QCL regions. Heterostructures with GaInAs and AlInAs absolute layer strain ranging from 0.5% to as high as 1.5% were grown by organometallic vapor-phase epitaxy at a growth temperature of 580 °C and utilized tertiarybutyl arsine and tertiarybutyl phospine as group V sources and triethylgallium, trimethylindium, and trimethylaluminum as group III sources. Growth was optimized by characterization of SB GaInAs/AlInAs/InP multiple quantum-well structures using high-resolution X-ray diffraction (XRD) and atomic force microscopy. Similar surface step structure and XRD spectra were obtained over the 0.5–1.5% SB range. QCLs with nominal strain balance of 1% and based on a four-quantum-well double-phonon resonance-active region design were grown and processed as ridge lasers. These lasers operate at 4.8 μm in pulsed mode at room temperature with a threshold current density of 1.3 kA/cm 2 , peak power of 1.74 W, and power-conversion efficiency of 9.7%. These results are comparable to state-of-the-art QCLs grown by molecular beam epitaxy.
Databáze: OpenAIRE
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