Light reflectance by semi-infinite turbid media is modeled by a hybrid of Monte Carlo simulation and diffusion theory, which combines the accuracy of Monte Carlo simulation near the source and the speed of diffusion theory distant from the source. For example, when the turbid medium has the following optical properties—absorption coefficient 1 cm^(-1), scattering coefficient 100 cm^(-1), anisotropy 0.9, and refractive-index-matched boundary—the hybrid simulation is 7 times faster than the pure Monte Carlo simulation (100,000 photon packets were traced), and the difference between the two simulations is within 2 standard deviations of the Monte Carlo simulation
The focusing of light into a turbid medium was studied with Monte Carlo simulations. Focusing was fo...
A novel method to accelerate Monte Carlo (MC) simulations of photon migration in turbid media is pre...
A Monte Carlo code is built taking into account macroscopic spheroid cavities inside a turbid medium...
Light reflectance by semi-infinite turbid media is modeled by a hybrid of Monte Carlo simulation and...
Both diffusion theory and similarity relations for light reflectance by semi-infinite turbid media h...
Diffusion theory and similarity relations were used to calculate the optical diffuse reflectance of ...
Abstract. We describe a fast, accurate method for determination of the optical coefficients of ‘semi...
We present a hybrid method that combines a multilayered scaling method and a perturbation method to...
INTRODUCTION: Due to the importance of laser light penetration and propagation in biological tissues...
Accurate and rapid estimation of fluence, reflectance, and absorbance in multilayered biological med...
We present a hybrid method to speed up the Monte Carlo simulation of diffuse reflectance from a mult...
A numerical method is presented to solve exactly the time-dependent diffusion equation that describe...
A method for improving the accuracy of the optical diffusion theory for a multilayer scattering medi...
Proceeding of: 2009 IEEE Nuclear Science Symposium Conference Record (NSS/MIC), Orlando, Florida, 25...
Time-resolved light transport in composite tissues is simulated using the Monte Carlo technique. Sna...
The focusing of light into a turbid medium was studied with Monte Carlo simulations. Focusing was fo...
A novel method to accelerate Monte Carlo (MC) simulations of photon migration in turbid media is pre...
A Monte Carlo code is built taking into account macroscopic spheroid cavities inside a turbid medium...
Light reflectance by semi-infinite turbid media is modeled by a hybrid of Monte Carlo simulation and...
Both diffusion theory and similarity relations for light reflectance by semi-infinite turbid media h...
Diffusion theory and similarity relations were used to calculate the optical diffuse reflectance of ...
Abstract. We describe a fast, accurate method for determination of the optical coefficients of ‘semi...
We present a hybrid method that combines a multilayered scaling method and a perturbation method to...
INTRODUCTION: Due to the importance of laser light penetration and propagation in biological tissues...
Accurate and rapid estimation of fluence, reflectance, and absorbance in multilayered biological med...
We present a hybrid method to speed up the Monte Carlo simulation of diffuse reflectance from a mult...
A numerical method is presented to solve exactly the time-dependent diffusion equation that describe...
A method for improving the accuracy of the optical diffusion theory for a multilayer scattering medi...
Proceeding of: 2009 IEEE Nuclear Science Symposium Conference Record (NSS/MIC), Orlando, Florida, 25...
Time-resolved light transport in composite tissues is simulated using the Monte Carlo technique. Sna...
The focusing of light into a turbid medium was studied with Monte Carlo simulations. Focusing was fo...
A novel method to accelerate Monte Carlo (MC) simulations of photon migration in turbid media is pre...
A Monte Carlo code is built taking into account macroscopic spheroid cavities inside a turbid medium...