Despite the 7% lattice mismatch, the reverse bias dark current of p-GaSb/n-
GaAs junctions has been found to be unexpectedly low. MOVPE-grown diodes ex
hibited dark currents up to two orders of magnitude lower than comparable G
aSb homojunctions. The initial nucleation of GaSb on GaAs was found to play
an important role in determining the properties of the bulk layer. A large
r number of small nucleation sites produced diodes with lower reverse bias
leakage currents and growth temperature was in turn critical in determining
the size of these nucleation islands. The authors present a study correlat
ing growth temperature with nucleation site density, dark current and open
circuit voltage under illumination. Diodes were grown at temperatures rangi
ng from 490-550 degrees C using TMGa and TMSb. A reduction in reverse bias
dark current of several orders of magnitude was observed across this narrow
temperature range. The 'turn-on' voltage also increased with reduction in
growth temperature and there was a corresponding increase in the average op
en circuit voltage, V-oc, under illumination. However, V-oc did not exceed
similar to 0.25V. This is low compared to GaSb homojunctions (typically 0.4
5V) and it may be limited by a low shunt resistance under illumination as w
ell as low efficiency from the thin GaSb layers. Other alkyls [TIPGa and t-
DMASb], which allow a further reduction in growth temperature, are being in
vestigated.