Dynamic Correlation in Wave Propagation in Random Media
arXiv:cond-mat/0402525 · doi:10.1103/PhysRevLett.93.123901
Abstract
We report time-resolved measurements of the statistics of pulsed transmission through quasi-one-dimensional dielectric media with static disorder. The normalized intensity correlation function with displacement and polarization rotation for an incident pulse of linewidth $Ï$ at delay time t is a function only of the field correlation function, which is identical to that found for steady-state excitation, and of $κ_Ï(t)$, the residual degree of intensity correlation at points at which the field correlation function vanishes. The dynamic probability distribution of normalized intensity depends only upon $κ_Ï(t)$. Steady-state statistics are recovered in the limit $Ï$->0, in which $κ_{Ï=0}$ is the steady-state degree of correlation.
4 RevTex pages, 4 figures