posted on 2015-02-26, 00:00authored byKamlesh Awasthi, Toshifumi Iimori, Nobuhiro Ohta
Electroabsorption (E-A) spectra of
semiconductor quantum dots (QDs)
of PbS have been analyzed by the integral method, which is powerful
not only to determine the change in electric dipole moment and/or
polarizability following absorption precisely but also to confirm
the weak absorption bands buried under other strong absorption bands.
In the results, two weak absorption bands which induce blue-shift
and red-shift, respectively, with application of electric fields have
been newly confirmed in PbS QDs to be located just above the intense
first exciton band. The energy separation between these two bands
becomes smaller, as the applied field strength becomes stronger, suggesting
that the interaction between the states excited by these transitions
becomes weaker by application of electric fields. The QD size dependence
has been reported both for the transition energy and for the magnitude
of the change in electric dipole moment and molecular polarizability
following the absorption of each band. The assignment of the absorption
bands has also been discussed.