Hot filament assisted metalorganic vapor-phase deposition of GaN

Hot tungsten filament is investigated as an ammonia precracking technique f or the low temperature of MOVPE GaN. Samples were grown using different fil ament temperatures (T-f) and under different (N-2, H-2) carrier gas composi tions. Results were discussed to take one's stand on a thermodynamic analys is of NK, decomposition as a function of temperature. It appears that the g rowth kinetics is controlled by the ammonia adsorption for low filament tem peratures (<1200 K) and low nitrogen amounts. For medium T-f (1200-1800 K), the use of hot tungsten filament improves the efficiency of NH2 decomposit ion and its adsorption on the growth surface. The growth mechanism is contr olled by the NH2 adsorption and the ratio of growth rates obtained with and without filament is about 2. High efficiency of ammonia decomposition for T-f > 1800 K results in low growth rate. This was related to NH2 decomposit ion into atomic nitrogen (N) and hydrogen (H). The recombination of atomic nitrogen before reaching the substrate seems to be significant enough so as to limit the deposition rate. Secondary ion mass spectrometry analysis rev ealed a decrease in the hydrogen contamination as T-f, increases. (C) 1999 Elsevier Science B.V. All rights reserved.