Far-field optical microscopy typically suffers from limited resolution, speed and imaging depth. Endoscopic imaging via a multimode fiber combined with wavefront shaping and computational reconstruction offers imaging beyond the Abbe and Nyquist limits
Multimode fibers (MMFs) show great promise in imaging applications where space is limited, due to th...
An optical fiber is a promising tool for remote imaging [1]. A multimode fiber (MMF) offers multiple...
We propose and experimentally demonstrate a new concept of endo-microscopy: compressive multimode (M...
Far-field optical microscopy typically suffers from limited resolution, speed and imaging depth. End...
Far-field optical microscopy typically suffers from limited resolution, speed and imaging depth. End...
Fiber-based endoscopic compressive imaging is a promising field for minimal invasive, in vivo imagin...
Endoscopy is a key technology for minimally-invasive optical access to deep tissues in humans and li...
Acquiring high-contrast optical images deep inside biological tissues is still a challenging problem...
Different from imaging an object through a multimode optical fiber (MMF) directly, it is much more c...
For several centuries, far-field optical microscopy has remained a key instrument in many scientific...
Optical microscopy is a technique for microworld investigation using light waves scattered on partic...
International audienceFluorescence imaging through ultrathin fibers is a promising approach to obtai...
Glass fibers are miniature optical components that serve as ultra-narrow endoscopy probes. Ideally, ...
Currently, endoscopic surgery uses single-mode fiber-bundles to obtain in vivo image information ins...
Fiber endoscopy plays an important role in the clinical diagnosis and treatment processes involved i...
Multimode fibers (MMFs) show great promise in imaging applications where space is limited, due to th...
An optical fiber is a promising tool for remote imaging [1]. A multimode fiber (MMF) offers multiple...
We propose and experimentally demonstrate a new concept of endo-microscopy: compressive multimode (M...
Far-field optical microscopy typically suffers from limited resolution, speed and imaging depth. End...
Far-field optical microscopy typically suffers from limited resolution, speed and imaging depth. End...
Fiber-based endoscopic compressive imaging is a promising field for minimal invasive, in vivo imagin...
Endoscopy is a key technology for minimally-invasive optical access to deep tissues in humans and li...
Acquiring high-contrast optical images deep inside biological tissues is still a challenging problem...
Different from imaging an object through a multimode optical fiber (MMF) directly, it is much more c...
For several centuries, far-field optical microscopy has remained a key instrument in many scientific...
Optical microscopy is a technique for microworld investigation using light waves scattered on partic...
International audienceFluorescence imaging through ultrathin fibers is a promising approach to obtai...
Glass fibers are miniature optical components that serve as ultra-narrow endoscopy probes. Ideally, ...
Currently, endoscopic surgery uses single-mode fiber-bundles to obtain in vivo image information ins...
Fiber endoscopy plays an important role in the clinical diagnosis and treatment processes involved i...
Multimode fibers (MMFs) show great promise in imaging applications where space is limited, due to th...
An optical fiber is a promising tool for remote imaging [1]. A multimode fiber (MMF) offers multiple...
We propose and experimentally demonstrate a new concept of endo-microscopy: compressive multimode (M...
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