Add to ORKGThe depth of two-photon fluorescence imaging in turbid media can be significantly enhanced by the use of the here described fluorescence detection method that allows to efficiently collect scattered fluorescence photons from a wide area of the turbid sample. By using this detector we were able to perform imaging of turbid samples, simulating brain tissue, at depths up to 3 mm, where the two-photon induced fluorescence signal is too weak to be detected by means used in conventional two-photon microscopy
A numerical model was developed to simulate the effects of tissue optical properties, objective nume...
We describe an advanced DIVER (Deep Imaging Via Emission Recovery) detection system for two-photon f...
A diffuse imaging method is presented that enables wide-field estimation of the depth of fluorescent...
The depth of two-photon fluorescence imaging in turbid media can be significantly enhanced by the us...
Imaging depth in turbid media by two-photon fluorescence microscopy depends on the ability of the op...
We constructed an advanced detection system for two-photon fluorescence microscopy that allows us to...
We have developed a two-photon fluorescence microscope capable of imaging up to 4mm in turbid media ...
The effect of multiple scattering in a turbid medium on single-photon and two-photon fluorescence mi...
In this article, effective point spread functions for fluorescence microscopic imaging are introduce...
We describe a novel two-photon fluorescence microscopy system capable of producing high-quality seco...
We show, both theoretically and experimentally, that for a turbid tissue medium where Mie scattering...
Abstract.We describe a novel technical approach with enhanced fluorescence detection capabilities in...
Image formation in multiphoton fluorescence microscopy through double-layer turbid tissue media is i...
In this paper, image formation under single-photon (1-p), two-photon (2-p) and three-photon (3-p) fl...
International audienceThere is a growing interest in imaging fluorescence contrast at depth within l...
A numerical model was developed to simulate the effects of tissue optical properties, objective nume...
We describe an advanced DIVER (Deep Imaging Via Emission Recovery) detection system for two-photon f...
A diffuse imaging method is presented that enables wide-field estimation of the depth of fluorescent...
The depth of two-photon fluorescence imaging in turbid media can be significantly enhanced by the us...
Imaging depth in turbid media by two-photon fluorescence microscopy depends on the ability of the op...
We constructed an advanced detection system for two-photon fluorescence microscopy that allows us to...
We have developed a two-photon fluorescence microscope capable of imaging up to 4mm in turbid media ...
The effect of multiple scattering in a turbid medium on single-photon and two-photon fluorescence mi...
In this article, effective point spread functions for fluorescence microscopic imaging are introduce...
We describe a novel two-photon fluorescence microscopy system capable of producing high-quality seco...
We show, both theoretically and experimentally, that for a turbid tissue medium where Mie scattering...
Abstract.We describe a novel technical approach with enhanced fluorescence detection capabilities in...
Image formation in multiphoton fluorescence microscopy through double-layer turbid tissue media is i...
In this paper, image formation under single-photon (1-p), two-photon (2-p) and three-photon (3-p) fl...
International audienceThere is a growing interest in imaging fluorescence contrast at depth within l...
A numerical model was developed to simulate the effects of tissue optical properties, objective nume...
We describe an advanced DIVER (Deep Imaging Via Emission Recovery) detection system for two-photon f...
A diffuse imaging method is presented that enables wide-field estimation of the depth of fluorescent...