Md. Dawson et al., MEASUREMENT OF THE DIRECT ENERGY-GAP OF AL0.5IN0.5P - IMPLICATIONS FOR THE BAND DISCONTINUITY AT GA1-XINXP ALYIN1-YP HETEROJUNCTIONS/, Physical review. B, Condensed matter, 50(15), 1994, pp. 11190-11191
In a recent paper [Phys. Rev. B 48, 18031 (1993)], Patel and co-worker
s described hydrostatic-pressure-dependent photoluminescence measureme
nts performed on Ga0.47In0.53P/Al0.5In0.5P multiple quantum wells. The
y determined directly a valence-band offset of 0.24+/-0.05 eV from the
energy difference between the indirect transition in the barrier and
the transition from X states in the barrier to hh1 valence-band states
in the quantum well, when extrapolated to zero pressure. The conducti
on-band offset was then indirectly determined to be 0.26 eV from the t
otal-band discontinuity of the system, assuming a value of 2.45 eV for
the (low temperature) lowest-energy direct gap of Al0.5In0.5P. This y
ields a band-offset ratio, Delta E(c):Delta E(v), of 52:48. Here, we p
resent evidence that the (5 K) direct gap of the Al0.5In0.5P barrier i
s similar to 2.685 eV, which results in a revised band-offset ratio of
67:33, similar to recent values determined for Ga1-xInxP/(AlyGa1-y)(0
.5)In0.5P heterojunctions.