We present a multiphoton microscope designed for mesoscale imaging of human skin. The system is based on two-photon excited fluorescence and second-harmonic generation, and images areas of ~0.8x0.8 mm2 at speeds of 0.8 fps (800x800 pixels; 12 frame averages) for high signal-to-noise ratio, with lateral and axial resolutions of 0.5µm and 3.3µm, respectively. The main novelty of this instrument is the design of the scan head, which includes a fast galvanometric scanner, optimized relay optics, a beam expander and high NA objective lens. Computed aberrations in focus are below the Marechal criterion of 0.07λ rms for diffraction-limited performance. We demonstrate the practical utility of this microscope by ex-vivo imaging of wide areas in norm...
Live tissue nonlinear microscopy based on multiphoton autofluorescence and second harmonic emission ...
Two-photon excitation microscopy has the potential as an effective, non-invasive, imaging tool for i...
This paper reports a handheld multiphoton fluorescence microscope designed for clinical imaging that...
We present a multiphoton microscope designed for mesoscale imaging of human skin. The system is base...
We introduce a compact, fast large area multiphoton exoscope (FLAME) system with enhanced molecular ...
Two-photon excitation microscopy has the potential as an effective, noninvasive, diagnostic tool for...
Scanning fluorescence microscopy using two-photon excitation [1] has become a powerful tool for perf...
In recent years, the non-linear optical imaging technique of multiphoton microscopy has gained signi...
Human skin is a highly complex and dynamic biological organ providing many critical functions for th...
A minimally invasive imaging modality that provides both cellular and extracellular structural infor...
Multiphoton microscopy has recently emerged as a powerful high-resolution and label-free imaging mod...
International audienceWe present a multiphoton microscope using a Cr4 + :forsterite femtosecond lase...
We have developed a two-photon fluorescence microscope capable of imaging up to 4mm in turbid media ...
The development of clinical multiphoton technologies has led to new, labelfree approaches for non-in...
The use of multiphoton microscopy has proven its potential on deep tissue virtual biopsy for early d...
Live tissue nonlinear microscopy based on multiphoton autofluorescence and second harmonic emission ...
Two-photon excitation microscopy has the potential as an effective, non-invasive, imaging tool for i...
This paper reports a handheld multiphoton fluorescence microscope designed for clinical imaging that...
We present a multiphoton microscope designed for mesoscale imaging of human skin. The system is base...
We introduce a compact, fast large area multiphoton exoscope (FLAME) system with enhanced molecular ...
Two-photon excitation microscopy has the potential as an effective, noninvasive, diagnostic tool for...
Scanning fluorescence microscopy using two-photon excitation [1] has become a powerful tool for perf...
In recent years, the non-linear optical imaging technique of multiphoton microscopy has gained signi...
Human skin is a highly complex and dynamic biological organ providing many critical functions for th...
A minimally invasive imaging modality that provides both cellular and extracellular structural infor...
Multiphoton microscopy has recently emerged as a powerful high-resolution and label-free imaging mod...
International audienceWe present a multiphoton microscope using a Cr4 + :forsterite femtosecond lase...
We have developed a two-photon fluorescence microscope capable of imaging up to 4mm in turbid media ...
The development of clinical multiphoton technologies has led to new, labelfree approaches for non-in...
The use of multiphoton microscopy has proven its potential on deep tissue virtual biopsy for early d...
Live tissue nonlinear microscopy based on multiphoton autofluorescence and second harmonic emission ...
Two-photon excitation microscopy has the potential as an effective, non-invasive, imaging tool for i...
This paper reports a handheld multiphoton fluorescence microscope designed for clinical imaging that...
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