Radiation Engineering Dept. National Center for Radiation Research and Technology (NCRRT),
Egyptian Atomic Energy Authority (EAEA), Cairo, Egypt
E-mails: shaban_45@yahoo.com; Ashraf.nasr@gmail.com

Abstract. This article is devoted to a theoretical evaluation of the transient behavior of a light emitting diode with a resonant cavity called the resonant cavity enhanced light emitting diode (RCELED). The used analytical model is based on applying the convolution theorem for a step input signal and the transfer function of RCELED in the presence of photon recycling. Influence of the efficiency of extraction due to photon recycling on the output optical power is analyzed. The target parameters characterizing the transient behavior are investigated. A traditional light emitting diode with no photon recycling is compared to a diode with photon recycling. The obtained results show the improvement of the output optical power and the rise time with the increase of extraction efficiency and in the presence of photon recycling in the light emitting diodes. The light emitting diode considered here reaches the highest steady state output power within 2 ns. Therefore this diode model may be used for fast speed and high optical gain applications such as in thermal imaging systems and short reach optical interconnects.

Keywords:transient response, RCELED, distributed Bragg reflector (DBR), extraction efficiency, internal quantum efficiency.

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