Information transfer through disordered media by diffuse waves
Abstract
We consider the information content h of a scalar multiple-scattered, diffuse wave field (r) and the information capacity C of a communication channel that employs diffuse waves to transfer the information through a disordered medium. Both h and C are shown to be directly related to the mesoscopic correlations between the values of (r) at different positions r in space, arising due to the coherent nature of the wave. For the particular case of a communication channel between two identical linear arrays of n 1 equally-spaced transmitters/receivers (receiver spacing a), we show that the average capacity <C> n and obtain explicit analytic expressions for <C>/n in the limit of n ∞ and k ∞, where k= 2π/ λ, λ is the wavelength, and is the mean free path. Modification of the above results in the case of finite but large n and k is discussed as well.
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