Simple Epitaxial Lateral Overgrowth Process as a Strategy for Photonic Integration on Silicon
Selected Topics in Quantum Electronics, IEEE Journal of (2014)
Abstract
In this paper we propose a strategy to achieve monolithic integration of III-Vs on Si for photonic integration through a simple process. By mimicking the SiO2/Si/SiO2 waveguide necessary to couple light from the gain medium on its top, we adopt a ~2 μm thick silicon dioxide mask for epitaxial lateral overgrowth (ELOG) of InP on Si. The ELOG InP layer as wells as the subsequently grown quantum wells (~1. 55 μm) have been analyzed by photoluminescence and transmission electron microscopy and found to have high optical quality and very good interface. The studies are strategically important for a monolithic platform that holds great potential in addressing the future need to have an integrated platform consisting of both III-Vs and Si on same chip.
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Key words
elemental semiconductors,epitaxial growth,indium compounds,integrated optics,photoluminescence,silicon compounds,transmission electron microscopy,inp,sio2-si-sio2,epitaxial lateral overgrowth process,high optical quality,mimicking,monolithic integration,photonic integration,silicon dioxide mask,elog,iii–v lasers on si,monolithic integration of iii–vs on si,integrated photonics
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