Abstract

We discuss the selective epitaxial growth of InP on patterned Si (001) substrates with Shallow Trench Isolation using a thin Ge buffer to facilitate InP nucleation. The main focus is the defect formation during epitaxial growth and to develop solutions to reduce defect density so that device-quality III-V virtual substrates can be realized on large-scale Si substrates. We compare the InP growth on on-axis and off-axis Si substrates. In the case of off-axis wafers, the formation of stacking faults / twins cannot be avoided, at least not at one of the four side-walls of the Shallow Trench Isolation. The formation of antiphase domain boundaries is reduced (but not yet completely eliminated) by engineering the local Ge surface profile. Further, the high density of Ge surface steps promotes step-flow growth mode instead of 3D growth during the growth of the InP seed layer. Finally, high aspect ratios (>2) allow to confine threading dislocations in the bottom of the trench.

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