Add to ORKGInternational audienceAdaptive optics is implemented in a harmonic generation microscope using a wavefront sensorless correction scheme. Both the second- and third-harmonic intensity signals are used as the optimization metric. Aberration correction is performed to compensate both system- and specimen-induced aberrations by using an efficient optimization routine based upon Zernike polynomial modes. Images of live mouse embryos show an improved signal level and resolution
While the light microscope offers biologists the advantage in vivo imaging, it suffers from a reduce...
Oocyte and embryo selection governs the success of assisted reproductive technologies. The imaging t...
In studying retinal disease on a microscopic level, in vivo imaging has allowed researchers to track...
Adaptive optics is implemented in a harmonic generation microscope using a wavefront sensorless corr...
Specimen-induced aberrations often affect microscopes, particularly when high numerical aperture len...
International audienceWe demonstrate image-based aberration correction in a third-harmonic generatio...
We present a detailed description of an adaptive harmonic generation (HG) microscope and culture tec...
Nonlinear microscopy is capable of imaging biological tissue non-invasively with sub-cellular resolu...
3D imaging using a multiphoton scanning confocal microscope is ultimately limited by aberrations of ...
Optical microscopy has been a cornerstone of life science investigations since its first practical a...
Item does not contain fulltextOptical aberrations have detrimental effects in multiphoton microscopy...
The imaging depth of two-photon excitation fluorescence microscopy is partly limited by the inhomoge...
In light of the population aging in many developed countries, there is a great economical interest i...
Nonlinear microscopy, with its unique advantages over conventional confocal fluorescence microscopy,...
Sample induced optical aberrations in slices of rat brain tissue have been corrected with a deformab...
While the light microscope offers biologists the advantage in vivo imaging, it suffers from a reduce...
Oocyte and embryo selection governs the success of assisted reproductive technologies. The imaging t...
In studying retinal disease on a microscopic level, in vivo imaging has allowed researchers to track...
Adaptive optics is implemented in a harmonic generation microscope using a wavefront sensorless corr...
Specimen-induced aberrations often affect microscopes, particularly when high numerical aperture len...
International audienceWe demonstrate image-based aberration correction in a third-harmonic generatio...
We present a detailed description of an adaptive harmonic generation (HG) microscope and culture tec...
Nonlinear microscopy is capable of imaging biological tissue non-invasively with sub-cellular resolu...
3D imaging using a multiphoton scanning confocal microscope is ultimately limited by aberrations of ...
Optical microscopy has been a cornerstone of life science investigations since its first practical a...
Item does not contain fulltextOptical aberrations have detrimental effects in multiphoton microscopy...
The imaging depth of two-photon excitation fluorescence microscopy is partly limited by the inhomoge...
In light of the population aging in many developed countries, there is a great economical interest i...
Nonlinear microscopy, with its unique advantages over conventional confocal fluorescence microscopy,...
Sample induced optical aberrations in slices of rat brain tissue have been corrected with a deformab...
While the light microscope offers biologists the advantage in vivo imaging, it suffers from a reduce...
Oocyte and embryo selection governs the success of assisted reproductive technologies. The imaging t...
In studying retinal disease on a microscopic level, in vivo imaging has allowed researchers to track...