GaN decomposition rates were measured in H-2, N-2, and mixed H-2 and N-2 fl
ows for pressures and temperatures typically encountered in metalorganic va
por phase epitaxy. The rates for GaN decomposition, Ga desorption, and Ga d
roplet accumulation, were obtained from weight measurements before and afte
r annealing the GaN films in a close-spaced showerhead reactor. In Hz at co
nstant temperature, the GaN decomposition rate is enhanced when the reactor
pressure is greater than 100 Torr. Unlike H-2, the decomposition rate in N
-2 did not change as a function of pressure. The enhanced GaN decomposition
rate in H-2 is not due to an increase in the Ga desorption rate, which is
constant vs. pressure, but instead is due to H-2 dissociation on the surfac
e followed by NH3 formation and desorption. NH3 formation is suggested by t
he cubic decrease in the GaN decomposition rate as N-2 is substituted for H
-2. The measured activation energies, E-A, for the GaN decomposition range
from 0.34 to 3.62 eV and depend strongly on the annealing conditions. By co
mparing measured and literature values of the E-A, four distinct groupings
of the E-A are observed. The four distinct groupings of the E-A imply that
there are possibly four different reactions which limit the GaN decompositi
on rate. Connections between the GaN decomposition and improved GaN growth
are discussed. This includes a discussion of changes that occur in the nucl
eation layer during the ramp from low to high temperature, as well as incre
ases in GaN grain size as the growth pressure is increased. Published by El
sevier Science B.V.