Dispersive photoluminescence decay by geminate recombination in amorphous semiconductors

Abstract

The photoluminescence decay in amorphous semiconductors is described by power law t-delta at long times. The power-law decay of photoluminescence at long times is commonly observed but recent experiments have revealed that the exponent, delta sim 1.2-1.3, is smaller than the value 1.5 predicted from a geminate recombination model assuming normal diffusion. Transient currents observed in the time-of-flight experiments are highly dispersive characterized by the disorder parameter alpha smaller than 1. Geminate recombination rate should be influenced by the dispersive transport of charge carriers. In this paper we derive the simple relation, delta = 1+ alpha/2 . Not only the exponent but also the amplitude of the decay calculated in this study is consistent with measured photoluminescence in a-Si:H.

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