J. Siviniant et al., Chemical equilibrium between excitons, electrons, and negatively charged excitons in semiconductor quantum wells, PHYS REV B, 59(3), 1999, pp. 1602-1604
The principle of chemical equilibrium is found to govern formation of negat
ively charged excitons (X-) by excitons (X) and free electrons (e(-)). An o
ptical spectroscopy study of undoped CdTe/Cdo(0.88)Mn(0.12)Te double quantu
m wells (QW's) revealed formation of a negatively charged exciton state in
the thicker QW due to the interwell tunneling of photoexcited electrons. A
peculiar, nonmonotonic behavior of the ratio of X to X- densities as a func
tion of the excitation density evidenced that the chemical law of action of
masses corresponding to the reaction X+e(-)double left right arrow X- is f
ulfilled. [S0163-1829(98)06547-3].