Aj. Williamson et A. Zunger, Pseudopotential study of electron-hole excitations in colloidal free-standing InAs quantum dots, PHYS REV B, 61(3), 2000, pp. 1978-1991
Excitonic spectra are calculated for free-standing, surface passivated, InA
s quantum dots using atomic pseudopotentials for the single-particle states
and screened Coulomb interactions for the two-body terms. We present an an
alysis of the single particle states involved in each excitation in terms o
f their angular momenta and Bloch-wave parentage. We find that (i) in agree
ment with other pseudopotential studies of CdSe and InP quantum dots, but i
n contrast to k . p calculations, the dot wave functions exhibit strong odd
-even angular momentum envelope function mixing (e.g., s with p) and large
valence-conduction coupling. (ii) While the pseudopotential approach produc
ed very good agreement with experiment for free-standing, colloidal CdSe an
d InP dots, and for self-assembled (GaAs-embedded) InAs dots, here the pred
icted spectrum does not agree well with the measured (ensemble average over
dot sizes) spectra. (1) Our calculated excitonic gap is larger than the ph
otoluminescence measured one, and (2) while the spacing between the lowest
excitons is reproduced, the spacings between higher excitons is not fit wel
l. Discrepancy (1) could result from surface state emission. As for (2), ag
reement is improved when account is taken of the finite-size distribution i
n the experimental data. (iii) We find that the single-particle gap scales
as R-1.01 (not R-2), that the screened (unscreened) electron-hole Coulomb i
nteraction scales as R-1.79 (R-0.7), and that the excitonic gap scales as R
-0.9. These scaling laws are different from those expected from simple mode
ls.