The universal bimodal distribution of transmission eigenvalues in lossless diffusive systems underpins such celebrated phenomena as universal conductance fluctuations, quantum shot noise in condensed matter physics, and enhanced transmission in optics and acoustics. Here, we show that in the presence of absorption, the density of the transmission eigenvalues depends on the confinement geometry of the scattering media. Furthermore, in an asymmetric waveguide, the densities of the reflection and absorption eigenvalues also depend on the side from which the waves are incident. With increasing absorption, the density of absorption eigenvalues transforms from a single-peak to a double-peak function. Our findings open an additional avenue for coh...
We present direct experimental evidence for position-dependent diffusion in open random media. The i...
Supplementary Information included at the end of the documentInternational audienceWe show in microw...
Supplementary Information included at the end of the documentInternational audienceWe show in microw...
While the absorption of light is ubiquitous in nature and in applications, the question remains how ...
This work presents results of ab-initio simulations of continuous wave transport in disordered absor...
Light-matter interactions inside a turbid medium can be controlled by tailoring the spatial distribu...
As the desire to explore opaque materials is ordinarily frustrated by multiple scattering of waves, ...
As the desire to explore opaque materials is ordinarily frustrated by multiple scattering of waves, ...
As the desire to explore opaque materials is ordinarily frustrated by multiple scattering of waves, ...
International audienceAs the desire to explore opaque materials is ordinarily frustrated by multiple...
International audienceAs the desire to explore opaque materials is ordinarily frustrated by multiple...
The impact of surface reflection upon transmission through and energy distributions within random me...
Selective excitation of a diffusive system\u27s transmission eigenchannels enables manipulation of i...
Selective excitation of a diffusive system\u27s transmission eigenchannels enables manipulation of i...
Selective excitation of a diffusive system\u27s transmission eigenchannels enables manipulation of i...
We present direct experimental evidence for position-dependent diffusion in open random media. The i...
Supplementary Information included at the end of the documentInternational audienceWe show in microw...
Supplementary Information included at the end of the documentInternational audienceWe show in microw...
While the absorption of light is ubiquitous in nature and in applications, the question remains how ...
This work presents results of ab-initio simulations of continuous wave transport in disordered absor...
Light-matter interactions inside a turbid medium can be controlled by tailoring the spatial distribu...
As the desire to explore opaque materials is ordinarily frustrated by multiple scattering of waves, ...
As the desire to explore opaque materials is ordinarily frustrated by multiple scattering of waves, ...
As the desire to explore opaque materials is ordinarily frustrated by multiple scattering of waves, ...
International audienceAs the desire to explore opaque materials is ordinarily frustrated by multiple...
International audienceAs the desire to explore opaque materials is ordinarily frustrated by multiple...
The impact of surface reflection upon transmission through and energy distributions within random me...
Selective excitation of a diffusive system\u27s transmission eigenchannels enables manipulation of i...
Selective excitation of a diffusive system\u27s transmission eigenchannels enables manipulation of i...
Selective excitation of a diffusive system\u27s transmission eigenchannels enables manipulation of i...
We present direct experimental evidence for position-dependent diffusion in open random media. The i...
Supplementary Information included at the end of the documentInternational audienceWe show in microw...
Supplementary Information included at the end of the documentInternational audienceWe show in microw...
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