Quantum Stochastic Absorption
Abstract
We report a detailed and systematic study of wave propagation through a stochastic absorbing random medium. Stochastic absorption is modeled by introducing an attenuation constant per unit length in the free propagation region of the one-dimensional disordered chain of delta function scatterers. The average value of the logarithm of transmission coefficient decreases linearly with the length of the sample. The localization length is given by , where and are the localization lengths in the presence of only disorder and of only absorption respectively. Absorption does not introduce any additional reflection in the limit of large , i.e., reflection shows a monotonic decrease with and tends to zero in the limit of , in contrast to the behavior observed in case of coherent absorption. The stationary distribution of reflection coefficient agrees well with the analytical results obtained within random phase approximation (RPA) in a larger parameter space. We also emphasize the major differences between the results of stochastic and coherent absorption.
Cite
@article{arxiv.cond-mat/9909327,
title = {Quantum Stochastic Absorption},
author = {Sandeep K. Joshi and Debendranath Sahoo and A. M. Jayannavar},
journal= {arXiv preprint arXiv:cond-mat/9909327},
year = {2007}
}
Comments
RevTex, 6 pages,2 column format, 9 .eps figures included