2021
DOI: 10.48550/arxiv.2102.06482
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Label-free video-rate micro-endoscopy through flexible fibers via Fiber Bundle Distal Holography (FiDHo)

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Cited by 2 publications
(2 citation statements)
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“…We extract image data from this non-ballistic light by pre-characterisation of a TM that enables the spatial control of the incident field to guide it through the MMF to its target. Our work also complements recent demonstrations of 3D imaging through thick randomly scattering media, in which diffuse scattering effects are inverted via ultra-fast pulse detection [40], and optical sectioning through larger form factor multicore fibres using in-situ distal holography [41].…”
supporting
confidence: 68%
“…We extract image data from this non-ballistic light by pre-characterisation of a TM that enables the spatial control of the incident field to guide it through the MMF to its target. Our work also complements recent demonstrations of 3D imaging through thick randomly scattering media, in which diffuse scattering effects are inverted via ultra-fast pulse detection [40], and optical sectioning through larger form factor multicore fibres using in-situ distal holography [41].…”
supporting
confidence: 68%
“…We extract image data from this nonballistic light by precharacterization of a TM that enables the spatial control of the incident field to guide it through the MMF to its target. Our work also complements recent demonstrations of 3D imaging through thick randomly scattering media, in which diffuse scattering effects are inverted using ultrafast pulse detection (29) and optical sectioning through larger form factor multicore fibers using in situ distal holography (30). Our prototype TOFbased 3D imaging system provides an exciting new modality to MMF-based microendoscopy, with many potential applications to remote inspection and biomedical imaging in the life sciences.…”
supporting
confidence: 52%