Reflection statistics of weakly disordered optical medium when its mean refractive index is different from an outside medium

Abstract

Based on the difference between mean background of an optical sample refractive index n0 and an outside medium, nout, different than n0, we study the reflection statistics of a one-dimensional weakly disordered optical medium with refractive index n(x)=n0+dn(x). Considering dn(x) as color noise with the exponential spatial correlation decay length lc and k as the incident wave vector, our results show that for the small correlation length limit, i.e. k*lc<1, the average value of reflectance, r, follows a form that is similar to that of the matched refractive-index case n0=nout, i.e., <r(dn, lc)> proportional to <dn2>lc. However, the standard deviation of r is proven to be std(r(dn,lc)) proportional to sqrt(<dn2>lc), which is different from the matched case. Applications to light scattering from layered media and biological cells are discussed