Abstract
We report the first demonstration of 200 mm InGaAs-on-insulator (InGaAs-o-I) fabricated by the direct wafer bonding technique with a donor wafer made of III-V heteroepitaxial structure grown on 200 mm silicon wafer. The measured threading dislocation density of the In0.53Ga0.47As (InGaAs) active layer is equal to 3.5 × 109 cm−2, and it does not degrade after the bonding and the layer transfer steps. The surface roughness of the InGaAs layer can be improved by chemical-mechanical-polishing step, reaching values as low as 0.4 nm root-mean-square. The electron Hall mobility in 450 nm thick InGaAs-o-I layer reaches values of up to 6000 cm2/Vs, and working pseudo-MOS transistors are demonstrated with an extracted electron mobility in the range of 2000–3000 cm2/Vs. Finally, the fabrication of an InGaAs-o-I substrate with the active layer as thin as 90 nm is achieved with a Buried Oxide of 50 nm. These results open the way to very large scale production of III-V-o-I advanced substrates for future CMOS technology nodes.
Highlights
The availability of InGaAs on large scale wafers (200 mm and more) is a prerequisite for the co-integration of III-V materials (n-FETs) with silicon or SiGe (p-FETs) in future CMOS technology nodes
direct wafer bonding (DWB) has been proven as a possible path to obtain InGaAs-o-I structures that are required for ultra-thin body and buried oxide (UTBB) Fully Depleted-o-I or FinFET devices
The use of Hydrogen implantation in a Smart CutTM process was proposed as a possible path to transfer the active layer of InGaAs and to recycle the donor wafers.[7]
Summary
The availability of InGaAs on large scale wafers (200 mm and more) is a prerequisite for the co-integration of III-V materials (n-FETs) with silicon or SiGe (p-FETs) in future CMOS technology nodes. Ultra-thin InGaAso-I were already fabricated by DWB using InP wafer as donor substrate.[4,5,6,7,8] InGaAs layers directly grown on InP substrate present a very low RMS surface roughness and can be transferred onto Si substrate via DWB.
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