We measured the forward currenthyphen;voltage characteristics of selfhyphen;electrohyphen;optic effect devices (SEED). These devices consist ofphyphen;ihyphen;ndiodes where theiregion is a GaAs/AlxGa1minus;xAs (xsim;0.3) multiplehyphen;quantumhyphen;well structure. It is found that the diode current varies as exp(qV/2 kT) and that it also scales with the junction perimeter for diodes of different mesa sizes, indicating nonradiative surface recombination at the mesa sidewalls. We also measured minorityhyphen;carrier lifetimes from photoluminescence decay experiments. They revealed that the recombination rate increases with decreasing mesa size, once again indicating that surface recombination at the mesa sidewalls limits carrier lifetime. A value of 6times;105cmthinsp;sminus;1for the surface recombination velocity for the sidewalls is determined. The implication of the nonradiative surface recombination at the mesa sidewalls is that it undermines the performance of the SEED as the mesa size decreases by reducing the photocurrent, thereby leading to higher bistability voltage threshold and hence higher switching energy.
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