Add to ORKGInternational audienceWe demonstrate image-based aberration correction in a third-harmonic generation (THG) microscope. We describe a robust, mostly sample-independent correction scheme relying on prior measurement of the influence of aberration modes produced by a deformable mirror on the quality of THG images. We find that using image sharpness as an image quality metric, correction of N aberration modes is achieved using 2(2N+1) measurements in a variety of samples. We also report aberration correction in combined multiharmonic and two-photon excited fluorescence experiments. Finally, we demonstrate time-dependent adaptive THG imaging in developing embryonic tissue
Multi-photon fluorescence microscopy has become a primary tool for high-resolution deep tissue imagi...
Simultaneous imaging of multiple labels in tissues is key to studying complex biological processes. ...
Aberrations affect the operation of optical systems, particularly those designed to work at the diff...
International audienceWe demonstrate image-based aberration correction in a third-harmonic generatio...
Specimen-induced aberrations often affect microscopes, particularly when high numerical aperture len...
Nonlinear microscopy is capable of imaging biological tissue non-invasively with sub-cellular resolu...
International audienceAdaptive optics is implemented in a harmonic generation microscope using a wav...
3D imaging using a multiphoton scanning confocal microscope is ultimately limited by aberrations of ...
International audienceWe characterize experimentally the influence of sample structure and beam focu...
Multiphoton microscopy has evolved into a powerful bioimaging tool in three dimensions. However, the...
Optical aberrations have detrimental effects in multiphoton microscopy. These effects can be curtail...
We have developed a nonlinear adaptive optics microscope utilizing a deformable membrane mirror (DMM...
Two-photon microscopy has become an indispensable tool in biological research allowing imaging of in...
We have developed a nonlinear adaptive optics microscope utilizing a deformable membrane mirror (DMM...
International audienceWe describe the effect of optical aberrations on fluorescence fluctuations mic...
Multi-photon fluorescence microscopy has become a primary tool for high-resolution deep tissue imagi...
Simultaneous imaging of multiple labels in tissues is key to studying complex biological processes. ...
Aberrations affect the operation of optical systems, particularly those designed to work at the diff...
International audienceWe demonstrate image-based aberration correction in a third-harmonic generatio...
Specimen-induced aberrations often affect microscopes, particularly when high numerical aperture len...
Nonlinear microscopy is capable of imaging biological tissue non-invasively with sub-cellular resolu...
International audienceAdaptive optics is implemented in a harmonic generation microscope using a wav...
3D imaging using a multiphoton scanning confocal microscope is ultimately limited by aberrations of ...
International audienceWe characterize experimentally the influence of sample structure and beam focu...
Multiphoton microscopy has evolved into a powerful bioimaging tool in three dimensions. However, the...
Optical aberrations have detrimental effects in multiphoton microscopy. These effects can be curtail...
We have developed a nonlinear adaptive optics microscope utilizing a deformable membrane mirror (DMM...
Two-photon microscopy has become an indispensable tool in biological research allowing imaging of in...
We have developed a nonlinear adaptive optics microscope utilizing a deformable membrane mirror (DMM...
International audienceWe describe the effect of optical aberrations on fluorescence fluctuations mic...
Multi-photon fluorescence microscopy has become a primary tool for high-resolution deep tissue imagi...
Simultaneous imaging of multiple labels in tissues is key to studying complex biological processes. ...
Aberrations affect the operation of optical systems, particularly those designed to work at the diff...