Image resolution and signal level in fluorescence microscopy through inhomogeneous turbid media consisting of scatterers of multiple sizes under single- (1p), two- (2p), and three-photon (3p) excitation have been investigated based on a modified Monte Carlo model. The effects of the size distribution and the concentration distribution of scattering particles are explored. Simulation results reveal that the size and the concentration distribution both have an impact on image formation in media consisting of small particles and that 3p excitation has the most significant impact. In media with scatterers of a large size, both size and concentration distributions lead to a slight effect. Image formation in a mixed medium containing small and la...
Penetration depth is investigated in terms of the performance of transverse image resolution and sig...
The effect of multiple scattering in a turbid medium on single-photon and two-photon fluorescence mi...
Abstract. We present a decoupled fluorescence Monte Carlo (dfMC) model for the direct computation of...
Image formation in multiphoton fluorescence microscopy through double-layer turbid tissue media is i...
Monte Carlo simulation methods are considered as an effective method to simulate the light transport...
In this paper, image formation under single-photon (1-p), two-photon (2-p) and three-photon (3-p) fl...
Fluorescent microspheres of diameter 10μm embedded in a turbid medium consisting of polystyren...
International audienceImaging depth in two-photon microscopy is ultimately limited by the out-of-foc...
The Monte Carlo method is a versatile simulation algorithm to model the propagation of photons insid...
In this article, effective point spread functions for fluorescence microscopic imaging are introduce...
This book provides a systematic introduction to the principles of microscopic imaging through tissue...
We report on measurements and Monte Carlo analysis of the spatial distribution of light in two-photo...
This book provides a systematic introduction to the principles of microscopic imaging through tissue...
This book provides a systematic introduction to the principles of microscopic imaging through tissue...
100 pagesMultiphoton microscopy is an important tool for high-resolution imaging of turbid media. A ...
Penetration depth is investigated in terms of the performance of transverse image resolution and sig...
The effect of multiple scattering in a turbid medium on single-photon and two-photon fluorescence mi...
Abstract. We present a decoupled fluorescence Monte Carlo (dfMC) model for the direct computation of...
Image formation in multiphoton fluorescence microscopy through double-layer turbid tissue media is i...
Monte Carlo simulation methods are considered as an effective method to simulate the light transport...
In this paper, image formation under single-photon (1-p), two-photon (2-p) and three-photon (3-p) fl...
Fluorescent microspheres of diameter 10μm embedded in a turbid medium consisting of polystyren...
International audienceImaging depth in two-photon microscopy is ultimately limited by the out-of-foc...
The Monte Carlo method is a versatile simulation algorithm to model the propagation of photons insid...
In this article, effective point spread functions for fluorescence microscopic imaging are introduce...
This book provides a systematic introduction to the principles of microscopic imaging through tissue...
We report on measurements and Monte Carlo analysis of the spatial distribution of light in two-photo...
This book provides a systematic introduction to the principles of microscopic imaging through tissue...
This book provides a systematic introduction to the principles of microscopic imaging through tissue...
100 pagesMultiphoton microscopy is an important tool for high-resolution imaging of turbid media. A ...
Penetration depth is investigated in terms of the performance of transverse image resolution and sig...
The effect of multiple scattering in a turbid medium on single-photon and two-photon fluorescence mi...
Abstract. We present a decoupled fluorescence Monte Carlo (dfMC) model for the direct computation of...