Abstract
MnAs layers are grown on GaAs substrates employing solid-state epitaxy following deposition in a molecular-beam epitaxy system. The surface morphology varies markedly with the orientation of the substrates. This dependence is strictly dictated by the lattice mismatch in the direction of the $c$ axis of MnAs. That the lattice mismatch is by far more important than interfacial atomic bonding in solid-state epitaxy provides an explanation that the minimization of the strain energy favors the $M$-plane orientation to the $C$-plane orientation on GaAs(111) despite the incompatible symmetries of the participating lattices.
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