RELAXATION MECHANISMS IN SINGLE INXGA1-XAS EPILAYERS GROWN ON MISORIENTED GAAS((111)OVER-BAR)B SUBSTRATES

Transmission electron microscopy (TEM) has been used to investigate th e mechanisms of misfit strain relaxation in InxGa1-xAs epilayers grown on GaAs((111) over bar)B substrates misoriented 2 degrees towards [2 (1) over bar (1) over bar]. It was found that the relaxation was broug ht about by a triangular network of misfit dislocations lying along th e three <1 (1) over bar 0> directions near the interface. However, the dislocation distribution was anisotropic with a much higher density o f dislocations lying parallel to the [0 (1) over bar 1] direction. A s econd relaxation mechanism was also observed which involved the format ion of deformation twins. These had nucleated at the epilayer surface and grown down into the epilayer, sometimes entering the underlying bu ffer layer. Twin formation was also anisotropic with twins forming on the ((1) over bar 11)[211] system only. The dislocation and twin aniso tropy may not be explained using the Schmid Factor considerations but is thought to be associated with heterogeneous nucleation of dislocati ons at the [0 (1) over bar 1] surface steps caused by the misorientati on. The critical layer thickness for the observation of misfit disloca tions by TEM in In0.25Ga0.75As ((111) over bar)B epilayers was found t o be between 15 and 25 nm. This is the same range as that observed for (001) epilayers of the same composition. This is as expected from the oretical considerations of the effects of orientation on the elastic m odulus and the strain relieving component of the misfit dislocation Bu rgers vector. (C) 1997 American Institute of Physics.