Add to ORKGThis paper presents a parametric study of the time-resolved hemispherical reflectance of a plane-parallel slab of homogeneous, cold, absorbing, and isotropically scattering medium exposed to a collimated Gaussian pulse. The front surface of the slab is transparent while the back surface is assumed to be cold and black. The one-dimensional time-dependent radiation transfer equation is solved using the modified method of characteristics. The parameters explored include (1) the optical thickness, (2) the single scattering albedo of the medium, and (3) the incident pulse width. The study pays particular attention to the maximum transient hemispherical reflectance and identifies optically thin and thick regimes. It shows that the maximum reflect...
Abstract: We study the accuracy of a number of simple approximate equations for the reflection chara...
The influence of substrate reflectance on the radiative intensity and flux distribution and on the a...
Light scattering in turbid media is essential for such diverse applications as paperand print, compu...
This paper presents a parametric study of the time-resolved hemispherical reflectance of a plane...
The influences of the medium\u27s refractive index on the radiation transfer through an absorbing-is...
Light propagation in 2-layered turbid media that have an infinitely thick 2nd layer is studied with ...
We present computationally efficient and accurate semiempirical models of light transfer suitable fo...
In this paper, we derive some explicit analytical solutions to the P3 equations for the slab geometr...
Abstract. We describe a fast, accurate method for determination of the optical coefficients of ‘semi...
Directional and hemispherical reflectance and transmittance, which result from collimated incident r...
A method is described for finding the optical properties (scattering, absorption, and scattering ani...
The apparent directional and hemispherical radiative properties of a finite scattering medium bounde...
Abstract: Properties of the reflection coefficient of a semi-infinite homogeneous plane-pa...
The understanding of the interaction of light with a scattering/absorbing medium provides a foundati...
We present a fast and accurate method for real-time determination of the absorption coefficient, the...
Abstract: We study the accuracy of a number of simple approximate equations for the reflection chara...
The influence of substrate reflectance on the radiative intensity and flux distribution and on the a...
Light scattering in turbid media is essential for such diverse applications as paperand print, compu...
This paper presents a parametric study of the time-resolved hemispherical reflectance of a plane...
The influences of the medium\u27s refractive index on the radiation transfer through an absorbing-is...
Light propagation in 2-layered turbid media that have an infinitely thick 2nd layer is studied with ...
We present computationally efficient and accurate semiempirical models of light transfer suitable fo...
In this paper, we derive some explicit analytical solutions to the P3 equations for the slab geometr...
Abstract. We describe a fast, accurate method for determination of the optical coefficients of ‘semi...
Directional and hemispherical reflectance and transmittance, which result from collimated incident r...
A method is described for finding the optical properties (scattering, absorption, and scattering ani...
The apparent directional and hemispherical radiative properties of a finite scattering medium bounde...
Abstract: Properties of the reflection coefficient of a semi-infinite homogeneous plane-pa...
The understanding of the interaction of light with a scattering/absorbing medium provides a foundati...
We present a fast and accurate method for real-time determination of the absorption coefficient, the...
Abstract: We study the accuracy of a number of simple approximate equations for the reflection chara...
The influence of substrate reflectance on the radiative intensity and flux distribution and on the a...
Light scattering in turbid media is essential for such diverse applications as paperand print, compu...