A
Arnaud Dubois
Researcher at Université Paris-Saclay
Publications - 145
Citations - 3467
Arnaud Dubois is an academic researcher from Université Paris-Saclay. The author has contributed to research in topics: Optical coherence tomography & Interferometry. The author has an hindex of 24, co-authored 120 publications receiving 3082 citations. Previous affiliations of Arnaud Dubois include Centre national de la recherche scientifique & École Normale Supérieure.
Papers
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Ultrahigh-resolution full-field optical coherence tomography
TL;DR: A white-light interference microscope for ultrahigh-resolution full-field optical coherence tomography of biological media and subcellular-level images of plant, animal, and human tissues are presented.
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Thermal-light full-field optical coherence tomography
TL;DR: This system, based on a Linnik-type interference microscope, illuminated by a white-light thermal lamp, has the highest resolution demonstrated to date for OCT imaging and realistic volume rendering of structures inside biological tissues is possible.
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Three-dimensional cellular-level imaging using full-field optical coherence tomography.
TL;DR: An ultrahigh-resolution full-field optical coherence tomography system has been developed for cellular-level imaging of biological media, based on a Linnik interference microscope illuminated with a tungsten halogen lamp, associated with a high-resolution CCD camera.
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Ocular tissue imaging using ultrahigh-resolution full-field optical coherence tomography
Kate Grieve,Michel Paques,Arnaud Dubois,José Sahel,Claude Boccara,Jean-Franc¸ois Le Gargasson +5 more
TL;DR: Ultrahigh-resolution, full-field OCT allows cellular-level imaging of unstained ocular tissues with high penetration depth and has potential for in vivo ocular examination, for which a new system is currently under development.
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Photostability of dye molecules trapped in solid matrices
TL;DR: The photostability of dye molecules trapped in transparent solid matrices synthesized by the solgel technique was studied both experimentally and theoretically using a model with numerical and approximate analytical solutions to give the number of photons that different trapped dye molecules can absorb on average before they are bleached.