A photoluminescence (PL) band, the M band, was observed in photoluminescenc
e spectra for various excitation densities in high-quality ZnO epitaxial th
in films. The M band intensity increased superlinearly with an increase in
the excitation intensity, suggesting that the observed PL band is due to a
biexciton state. In order to prove this, the photoluminescence excitation (
PLE) spectrum of the M band and time dependence of the PL intensity were me
asured. A shoulder that originates from two-photon absorption of the biexci
ton state appeared in the PLE spectrum. The biexciton binding energy was es
timated to be 15 meV. The temporal behavior of the PL intensities of the M
and free-exciton bands can be explained by modified rate equations assuming
that the M band is caused by radiative annihilation of a biexciton leaving
a free exciton and that the rate of creation of biexcitons is proportional
to the 1.5th power of the exciton density. This power dependence is consis
tent with experimental results showing that the M band intensity is proport
ional to the 1.5th power of the excitation density. (C) 2001 American Insti
tute of Physics.