Add to ORKGWe demonstrate a method towards two-photon endoscopy based on time-domain wavefront shaping through a multimode fiber. This allows grid scanning of an ultrashort pulse over the output facet of the fiber with a perturbation-insensitive input
Two-photon endoscopy based on a gradient-index lens has been widely utilized for studying cellular b...
Single multi-mode fibers are attractive for endoscopy due to their small footprint, high number of d...
In this Letter, we propose a compact multimode fiber endoscope which employs wavefront shaping with ...
We demonstrate a method towards two-photon endoscopy based on time-domain wavefront shaping through ...
Multimode fibers (MMFs) show great promise in imaging applications where space is limited, due to th...
Due to their high number of supported modes, multimode optical fibers carry large amount of spatio-t...
Fiber endoscopy plays an important role in the clinical diagnosis and treatment processes involved i...
In recent years, the demand for non-destructive deep-tissue imaging modalities has led to interest i...
Endoscopy is a key technology for minimally-invasive optical access to deep tissues in humans and li...
We present near diffraction limited two photon fluorescence (TPF) imaging through a lensless, multi-...
Currently, endoscopic surgery uses single-mode fiber-bundles to obtain in vivo image information ins...
Optical microscopy is a technique for microworld investigation using light waves scattered on partic...
Optical imaging in biomedicine provides pathophysiological information with high resolution, high sp...
Although fiber-optical two-photon endoscopy has been recognized as a potential high-resolution diagn...
International audienceMany applications for microendoscopy, such as brain imaging, requires the deve...
Two-photon endoscopy based on a gradient-index lens has been widely utilized for studying cellular b...
Single multi-mode fibers are attractive for endoscopy due to their small footprint, high number of d...
In this Letter, we propose a compact multimode fiber endoscope which employs wavefront shaping with ...
We demonstrate a method towards two-photon endoscopy based on time-domain wavefront shaping through ...
Multimode fibers (MMFs) show great promise in imaging applications where space is limited, due to th...
Due to their high number of supported modes, multimode optical fibers carry large amount of spatio-t...
Fiber endoscopy plays an important role in the clinical diagnosis and treatment processes involved i...
In recent years, the demand for non-destructive deep-tissue imaging modalities has led to interest i...
Endoscopy is a key technology for minimally-invasive optical access to deep tissues in humans and li...
We present near diffraction limited two photon fluorescence (TPF) imaging through a lensless, multi-...
Currently, endoscopic surgery uses single-mode fiber-bundles to obtain in vivo image information ins...
Optical microscopy is a technique for microworld investigation using light waves scattered on partic...
Optical imaging in biomedicine provides pathophysiological information with high resolution, high sp...
Although fiber-optical two-photon endoscopy has been recognized as a potential high-resolution diagn...
International audienceMany applications for microendoscopy, such as brain imaging, requires the deve...
Two-photon endoscopy based on a gradient-index lens has been widely utilized for studying cellular b...
Single multi-mode fibers are attractive for endoscopy due to their small footprint, high number of d...
In this Letter, we propose a compact multimode fiber endoscope which employs wavefront shaping with ...