Time-resolved light transport in composite tissues is simulated using the Monte Carlo technique. Snapshots of spatial distributions of physical quantities, including light absorption rate, light fluence rate, and diffuse reflectance rate, are presented. Such multiple snapshots with a given time interval can be shown sequentially to achieve an animation effect. This animated simulation is a tool that aids in the general understanding of light transport in tissues. For example, the simulation of time-resolved spatial distribution of light fluence rate inside a tissue illustrates how fast light is dispersed inside tissues. The simulation of diffuse reflectance rate as a function of time of a short-pulsed laser incident upon a piece of tissue c...
Monte Carlo modeling of light transport in multilayered tissue (MCML) is modified to incorporate obj...
Details of the interaction of photons with tissue phantoms are elucidated using Monte Carlo simulati...
Light reflectance by semi-infinite turbid media is modeled by a hybrid of Monte Carlo simulation and...
Time-resolved light transport in composite tissues is simulated using the Monte Carlo technique. Sna...
Abstract. A general survey is provided on the capability of Monte Carlo (MC) modeling in tissue opti...
Laser has got a property of having high irradiance and penetration power to be used for different me...
The growing number of laser applications in Medicine and Biology has determined a renewed interest o...
The study of light transport is important in many applications ranging from neutron transport, gas a...
Monte Carlo simulations of photon propagation offer a flexible yet rigorous approach toward photon t...
Proceeding of: 2009 IEEE Nuclear Science Symposium Conference Record (NSS/MIC), Orlando, Florida, 25...
INTRODUCTION: Due to the importance of laser light penetration and propagation in biological tissues...
Energy deposition in bio-tissues is a prerequisite for the calculation of heat transfer during laser...
Monte Carlo (MC) simulation for light propagation in tissue is the gold standard for studying the li...
A numerical method is presented to solve exactly the time-dependent diffusion equation that describe...
Monte Carlo modeling of light transport in multilayered tissue (MCML) is modified to incorporate obj...
Monte Carlo modeling of light transport in multilayered tissue (MCML) is modified to incorporate obj...
Details of the interaction of photons with tissue phantoms are elucidated using Monte Carlo simulati...
Light reflectance by semi-infinite turbid media is modeled by a hybrid of Monte Carlo simulation and...
Time-resolved light transport in composite tissues is simulated using the Monte Carlo technique. Sna...
Abstract. A general survey is provided on the capability of Monte Carlo (MC) modeling in tissue opti...
Laser has got a property of having high irradiance and penetration power to be used for different me...
The growing number of laser applications in Medicine and Biology has determined a renewed interest o...
The study of light transport is important in many applications ranging from neutron transport, gas a...
Monte Carlo simulations of photon propagation offer a flexible yet rigorous approach toward photon t...
Proceeding of: 2009 IEEE Nuclear Science Symposium Conference Record (NSS/MIC), Orlando, Florida, 25...
INTRODUCTION: Due to the importance of laser light penetration and propagation in biological tissues...
Energy deposition in bio-tissues is a prerequisite for the calculation of heat transfer during laser...
Monte Carlo (MC) simulation for light propagation in tissue is the gold standard for studying the li...
A numerical method is presented to solve exactly the time-dependent diffusion equation that describe...
Monte Carlo modeling of light transport in multilayered tissue (MCML) is modified to incorporate obj...
Monte Carlo modeling of light transport in multilayered tissue (MCML) is modified to incorporate obj...
Details of the interaction of photons with tissue phantoms are elucidated using Monte Carlo simulati...
Light reflectance by semi-infinite turbid media is modeled by a hybrid of Monte Carlo simulation and...