We study numerically the effects of optical absorption on highly transmitting channels in strongly scattering media. We observe that they are robust against weak absorption. Surprisingly, in case of strong absorption diffusive transport becomes ballistic-like
Light-wave propagation in a randomly scattering but uniformly and coherently amplifying optical medi...
We employ the numerically exact superposition T-matrix method to perform extensive computations of e...
No direct imaging is possible in turbid media, where light propagates diffusively over length scales...
We study numerically the effects of optical absorption on highly transmitting channels in strongly s...
While the absorption of light is ubiquitous in nature and in applications, the question remains how ...
We show that a weakly absorbing, strongly scattering (white) medium can be made very strongly absorb...
We present a detailed, microscopic transport theory for light in strongly scattering disordered syst...
We present a unified derivation of the photon diffusion coefficient for both steady-state and time-d...
International audienceWe revisit the definition of the diffusion coefficient for light transport in ...
Light propagation in strongly scattering media can be described by the diffusion approximation to th...
We experimentally demonstrate increased diffuse transmission of light through strongly scattering ma...
We theoretically and numerically investigate the capabilityof disordered media to enhance the optica...
Light incident on a scattering medium is redistributed over transport channels that either transmit ...
International audienceWe present a numerical investigation of the light scattering in an absorbing m...
We numerically study the statistical distribution of intensity of light transmitted through quasi-on...
Light-wave propagation in a randomly scattering but uniformly and coherently amplifying optical medi...
We employ the numerically exact superposition T-matrix method to perform extensive computations of e...
No direct imaging is possible in turbid media, where light propagates diffusively over length scales...
We study numerically the effects of optical absorption on highly transmitting channels in strongly s...
While the absorption of light is ubiquitous in nature and in applications, the question remains how ...
We show that a weakly absorbing, strongly scattering (white) medium can be made very strongly absorb...
We present a detailed, microscopic transport theory for light in strongly scattering disordered syst...
We present a unified derivation of the photon diffusion coefficient for both steady-state and time-d...
International audienceWe revisit the definition of the diffusion coefficient for light transport in ...
Light propagation in strongly scattering media can be described by the diffusion approximation to th...
We experimentally demonstrate increased diffuse transmission of light through strongly scattering ma...
We theoretically and numerically investigate the capabilityof disordered media to enhance the optica...
Light incident on a scattering medium is redistributed over transport channels that either transmit ...
International audienceWe present a numerical investigation of the light scattering in an absorbing m...
We numerically study the statistical distribution of intensity of light transmitted through quasi-on...
Light-wave propagation in a randomly scattering but uniformly and coherently amplifying optical medi...
We employ the numerically exact superposition T-matrix method to perform extensive computations of e...
No direct imaging is possible in turbid media, where light propagates diffusively over length scales...