Add to ORKGWe derive and analyze the statistics of reflection coefficient of light backscattered coherently from an amplifying and disordered optical medium modeled by a spatially random refractive index having a uniform imaginary part in one dimension. We find enhancement of reflected intensity owing to a synergy between wave confinement by Anderson localization and coherent amplification by the active medium. This is not the same as that due to enhanced optical path lengths expected from photon diffusion in the random active medium. Our study is relevant to the physical realizability of a mirrorless laser by photon confinement due to Anderson localization
We make an comprehensive experimental and theoretical study of an effect of localization of light in...
5 pages, 3 figuresInternational audienceAs discovered by Philip Anderson in 1958, strong disorder ca...
Journal ArticleRecent discovery of the coherent lasing from various disordered materials adds a new ...
We derive and analyze the statistics of reflection coefficient of light backscattered coherently fro...
We derive and analyze the statistics of reflection coefficient of light backscattered coherently fro...
Restricted AccessWe derive and analyze the statistics of reflection coefficient of light backscatter...
The probability distribution of the reflection coefficient for light reflected from a one-dimensiona...
The probability distribution of the reflection coefficient for light reflected from a one-dimensiona...
The probability distribution of the reflection coefficient for light reflected from a one-dimensiona...
Restricted Access.Light-wave propagation in a randomly scattering but uniformly and coherently ampli...
Light-wave propagation in a randomly scattering but uniformly and coherently amplifying optical medi...
In three-dimensional disordered media, light localization can occur when the disorder is above a cer...
We report a detailed and systematic numerical study of wave propagation through a coherently amplify...
Restricted Access.A light wave incident on a random amplifying medium (RAM) may be reflected with a ...
A light wave incident on a random amplifying medium (RAM) may be reflected with a reflection coeffic...
We make an comprehensive experimental and theoretical study of an effect of localization of light in...
5 pages, 3 figuresInternational audienceAs discovered by Philip Anderson in 1958, strong disorder ca...
Journal ArticleRecent discovery of the coherent lasing from various disordered materials adds a new ...
We derive and analyze the statistics of reflection coefficient of light backscattered coherently fro...
We derive and analyze the statistics of reflection coefficient of light backscattered coherently fro...
Restricted AccessWe derive and analyze the statistics of reflection coefficient of light backscatter...
The probability distribution of the reflection coefficient for light reflected from a one-dimensiona...
The probability distribution of the reflection coefficient for light reflected from a one-dimensiona...
The probability distribution of the reflection coefficient for light reflected from a one-dimensiona...
Restricted Access.Light-wave propagation in a randomly scattering but uniformly and coherently ampli...
Light-wave propagation in a randomly scattering but uniformly and coherently amplifying optical medi...
In three-dimensional disordered media, light localization can occur when the disorder is above a cer...
We report a detailed and systematic numerical study of wave propagation through a coherently amplify...
Restricted Access.A light wave incident on a random amplifying medium (RAM) may be reflected with a ...
A light wave incident on a random amplifying medium (RAM) may be reflected with a reflection coeffic...
We make an comprehensive experimental and theoretical study of an effect of localization of light in...
5 pages, 3 figuresInternational audienceAs discovered by Philip Anderson in 1958, strong disorder ca...
Journal ArticleRecent discovery of the coherent lasing from various disordered materials adds a new ...