Three-dimensional imaging with reflection synthetic confocal microscopy | Zendy

Md Rasedujjaman | Zendy; Kévin Affannoukoué | Zendy; Nicolas GarciaSeyda | Zendy; Philippe Robert | Zendy; Hugues Giovannini | Zendy; Patrick C. Chaumet | Zendy; Olivier Théodoly | Zendy; MariePierre Valignat | Zendy; Kamal Belkebir | Zendy; Anne Sentenac | Zendy; Guillaume Maire | Zendy

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Three-dimensional imaging with reflection synthetic confocal microscopy

Author(s) -

Md Rasedujjaman,

Kévin Affannoukoué,

Nicolas GarciaSeyda,

Philippe Robert,

Hugues Giovannini,

Patrick C. Chaumet,

Olivier Théodoly,

MariePierre Valignat,

Kamal Belkebir,

Anne Sentenac,

Guillaume Maire

Publication year - 2020

Publication title -

optics letters

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.524

H-Index - 272

eISSN - 1071-2763

pISSN - 0146-9592

DOI - 10.1364/ol.397364

Subject(s) - optical coherence tomography , microscopy , optics , confocal microscopy , microscope , confocal , tomographic reconstruction , reflection (computer programming) , tomography , resolution (logic) , biological imaging , materials science , computer science , artificial intelligence , physics , fluorescence , programming language

Biomedical imaging lacks label-free microscopy techniques able to reconstruct the contour of biological cells in solution, in 3D and with high resolution, as required for the fast diagnosis of numerous diseases. Inspired by computational optical coherence tomography techniques, we present a tomographic diffractive microscope in reflection geometry used as a synthetic confocal microscope, compatible with this goal and validated with the 3D reconstruction of a human effector T lymphocyte.

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