Statistical Properties of the Reflectance and Transmittance of an Amplifying Random Media
Abstract
Statistical properties of the transmittance (T) and reflectance (R) of an amplifying layer with one-dimensional disorder are investigated analytically. Whereas the transmittance at typical realizations decreases exponentially with the layer thickness L just as it does in absorbing media, the average T and R \ are shown to be infinite even for finite L due to the contribution of low-probable resonant realizations corresponding to the non-Gaussian tail of the distribution of T. This tail differs drastically from that in the case of absorption. The physical meaning of typical and resonant realizations is discussed.
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