A novel integration method for III–V semiconductor devices on a Si platform was demonstrated. Thin-film InP was directly bonded on a Si substrate and metal organic vapor phase epitaxy (MOVPE) growth was performed by using an InP/Si template. A void-free 2-in. InP layer bonded on a Si substrate was realized, and a low interfacial resistance and ohmic contact through the bonded interface were observed. After the MOVPE process, the as-grown structure was optically active and we observed photoluminescence (PL) intensity comparable to that from the same structure grown on InP as a reference. Furthermore, almost no lattice strain was observed from the InP layer. Then, the epitaxial growth of a GaInAsP–InP double-hetero (DH) laser diode (LD) was demonstrated on the substrate and we observed lasing emission at RT in a pulse regime. These results are promising for the integration of InP-based devices on a Si platform for optical interconnection.
An epitaxially grown GaInAsP/InP double-hetero laser diode (LD) has been demonstrated on a wafer-bonded InP/Si substrate for the first time. The as-grown structure was optically active and exhibited a photoluminescence intensity comparable to that grown on an InP wafer as a reference. Electrodes were formed on both the p-side contact layer and the n-Si underside to fabricate Fabry–Perot LD chips. During these processes, the InP layer remained bonded to the underlying Si substrate. Electrically pumped lasing emission was observed at room temperature under a pulse regime. These results indicate the potential for the high-density integration of InP-based LDs as a light source for optical interconnections.
Current-injected light emission was confirmed for metal organic vapor phase epitaxy (MOVPE) grown (Ga)InAs/InP quantum dots (QDs) on directly bonded InP/Si substrate. The InP/Si substrate was prepared by directly bonding of InP thin film and a Si substrate using a wet-etching and annealing process. A p-i-n LED structure including Stranski-Krastanov (Ga)InAs/InP QDs was grown by MOVPE on an InP/Si substrate. No debonding between Si substrate and InP layer was observed, even after MOVPE growth and operation of the device under continuous wave conditions at RT. The photoluminescence, current/voltage, and electroluminescence characteristics of the device grown on the InP/Si substrate were compared with reference grown on an InP substrate.
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