Add to ORKGWe have developed a two-photon fluorescence microscope capable of imaging up to 4mm in turbid media with micron resolution. The key feature of this instrument is the innovative detector, capable of collecting emission photons from a wider surface area of the sample than detectors in traditional two-photon microscopes. This detection scheme is extremely efficient in the collection of emitted photons scattered by turbid media which allows eight fold increase in the imaging depth when compared with conventional two-photon microscopes. Furthermore, this system also has in-depth fluorescence lifetime imaging microscopy (FLIM) imaging capability which increases image contrast. The detection scheme captures emission light in a transmission configu...
Imaging depth in turbid media by two-photon fluorescence microscopy depends on the ability of the op...
Confocal microscopes have been the workhorses of 3-D biological imaging, but they are slow, offer li...
We present a comparative study of two-photon excited fluorescence (TPEF) and second harmonic generat...
We have developed a two-photon fluorescence microscope capable of imaging up to 4mm in turbid media ...
We constructed an advanced detection system for two-photon fluorescence microscopy that allows us to...
Abstract.We describe a novel technical approach with enhanced fluorescence detection capabilities in...
We describe a novel two-photon fluorescence microscopy system capable of producing high-quality seco...
The depth of two-photon fluorescence imaging in turbid media can be significantly enhanced by the us...
With few exceptions biological tissues strongly scatter light, making high-resolution deep imaging i...
We describe an advanced DIVER (Deep Imaging Via Emission Recovery) detection system for two-photon f...
This chapter will provide an overview of two-photon microscopy from elements of the theory underpinn...
MasterThis thesis describes the implementation and characterization of a high-speed two-photon micro...
Live tissue nonlinear microscopy based on multiphoton autofluorescence and second harmonic emission ...
With few exceptions biological tissues strongly scatter light, making high−resolution deep imaging i...
Optical images of tissue can be obtained from greater depth when multiphoton-excited fluorescence is...
Imaging depth in turbid media by two-photon fluorescence microscopy depends on the ability of the op...
Confocal microscopes have been the workhorses of 3-D biological imaging, but they are slow, offer li...
We present a comparative study of two-photon excited fluorescence (TPEF) and second harmonic generat...
We have developed a two-photon fluorescence microscope capable of imaging up to 4mm in turbid media ...
We constructed an advanced detection system for two-photon fluorescence microscopy that allows us to...
Abstract.We describe a novel technical approach with enhanced fluorescence detection capabilities in...
We describe a novel two-photon fluorescence microscopy system capable of producing high-quality seco...
The depth of two-photon fluorescence imaging in turbid media can be significantly enhanced by the us...
With few exceptions biological tissues strongly scatter light, making high-resolution deep imaging i...
We describe an advanced DIVER (Deep Imaging Via Emission Recovery) detection system for two-photon f...
This chapter will provide an overview of two-photon microscopy from elements of the theory underpinn...
MasterThis thesis describes the implementation and characterization of a high-speed two-photon micro...
Live tissue nonlinear microscopy based on multiphoton autofluorescence and second harmonic emission ...
With few exceptions biological tissues strongly scatter light, making high−resolution deep imaging i...
Optical images of tissue can be obtained from greater depth when multiphoton-excited fluorescence is...
Imaging depth in turbid media by two-photon fluorescence microscopy depends on the ability of the op...
Confocal microscopes have been the workhorses of 3-D biological imaging, but they are slow, offer li...
We present a comparative study of two-photon excited fluorescence (TPEF) and second harmonic generat...