Add to ORKGThe focal field distribution of tightly focused laser beams in turbid media is sensitive to optical scattering and therefore of direct relevance to image quality in confocal and nonlinear microscopy. A model that considers both the influence of scattering and diffraction on the amplitude and phase of the electric field in focused beam geometries is required to describe these distorted focal fields. We combine an electric field Monte Carlo approach that simulates the electric field propagation in turbid media with an angular-spectrum representation of diffraction theory to analyze the effect of tissue scattering properties on the focal field. In particular, we examine the impact of variations in the scattering coefficient (µs), single-scatte...
We theoretically derive the electric field distribution of an astigmatic Gaussian laser beam after i...
In Part I of this study [1], good agreement between experimental measurements and results from Monte...
Closed formulas are derived for the field in the focal region of a diffraction limited lens, such th...
A framework is developed that combines electric field Monte Carlo simulations of random scattering w...
We develop an efficient method for accurately calculating the electric field of tightly focused lase...
Abstract We explore the propagation of the cylindrical vector beams (CVB) in turbid tissue-like sca...
We explore the propagation of the cylindrical vector beams (CVB) in turbid tissue-like scattering me...
We present an explicit computable integral solution of the electric field generated at the focal reg...
Monte Carlo simulation methods are considered as an effective method to simulate the light transport...
We present a coupled forward-adjoint Monte Carlo (cFAMC) method to determine the spatially resolved ...
We present numerical calculations on the field distribution in the focus of an optical system with h...
The focusing of light into a turbid medium was studied with Monte Carlo simulations. Focusing was fo...
The degree of polarization (DOP) of laser-speckle fields, where the speckles were generated by a pol...
Laser has got a property of having high irradiance and penetration power to be used for different me...
In Part I of this study [1], good agreement between experimental measurements and results from Monte...
We theoretically derive the electric field distribution of an astigmatic Gaussian laser beam after i...
In Part I of this study [1], good agreement between experimental measurements and results from Monte...
Closed formulas are derived for the field in the focal region of a diffraction limited lens, such th...
A framework is developed that combines electric field Monte Carlo simulations of random scattering w...
We develop an efficient method for accurately calculating the electric field of tightly focused lase...
Abstract We explore the propagation of the cylindrical vector beams (CVB) in turbid tissue-like sca...
We explore the propagation of the cylindrical vector beams (CVB) in turbid tissue-like scattering me...
We present an explicit computable integral solution of the electric field generated at the focal reg...
Monte Carlo simulation methods are considered as an effective method to simulate the light transport...
We present a coupled forward-adjoint Monte Carlo (cFAMC) method to determine the spatially resolved ...
We present numerical calculations on the field distribution in the focus of an optical system with h...
The focusing of light into a turbid medium was studied with Monte Carlo simulations. Focusing was fo...
The degree of polarization (DOP) of laser-speckle fields, where the speckles were generated by a pol...
Laser has got a property of having high irradiance and penetration power to be used for different me...
In Part I of this study [1], good agreement between experimental measurements and results from Monte...
We theoretically derive the electric field distribution of an astigmatic Gaussian laser beam after i...
In Part I of this study [1], good agreement between experimental measurements and results from Monte...
Closed formulas are derived for the field in the focal region of a diffraction limited lens, such th...