DEPENDENCE OF THE DENSITY AND TYPE OF STACKING-FAULTS ON THE SURFACE-TREATMENT OF THE SUBSTRATE AND GROWTH MODE IN ZNSXSE1-X ZNSE BUFFER LAYER GAAS HETEROSTRUCTURES/
Lh. Kuo et al., DEPENDENCE OF THE DENSITY AND TYPE OF STACKING-FAULTS ON THE SURFACE-TREATMENT OF THE SUBSTRATE AND GROWTH MODE IN ZNSXSE1-X ZNSE BUFFER LAYER GAAS HETEROSTRUCTURES/, Applied physics letters, 67(22), 1995, pp. 3298-3300
A systematic dependence of the density and type of stacking fault defe
cts with substrate surface chemistry and film growth mode was observed
in ZnSe-based films grown on GaAs substrates. Namely, the density of
Frank-type stacking faults is very large for films grown on Ga-rich su
rfaces, but is very low for films grown on As-stabilized surfaces expo
sed to Zn prior to the growth of the film. In contrast, the density of
Shockley-type stacking faults increases for films grown by 3D growth
mode at the initial stages of growth, but decreases greatly if the fil
ms are grown by the layer-by-layer growth mode. Films with stacking fa
ult densities as low as similar to 1x10(4)/cm(2) were obtained by grow
ing the films by the layer-by-layer growth on GaAs epilayers with As-s
tabilized surfaces that were exposed to Zn for 1-2 min prior to the gr
owth of the films. (C) 1995 American Institute of Physics.