Clément Guyot
University of Franche-Comté
25 Papers
56 Citations
Clément Guyot is an academic researcher from University of Franche-Comté. The author has contributed to research in topics: Lithium niobate & Photonic crystal. The author has an hindex of 9, co-authored 22 publications. Previous affiliations of Clément Guyot include Centre national de la recherche scientifique & Franche Comté Électronique Mécanique Thermique et Optique Sciences et Technologies.
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Papers
Integrated temperature sensor based on an enhanced pyroelectric photonic crystal.
Huihui Lu,Benattou Sadani,Gwenn Ulliac,Clément Guyot,Nadège Courjal,Manuel Collet,Fadi Issam Baida,Maria-Pilar Bernal +7 more
TL;DR: In this paper, temperature variations are detected thanks to an enhanced nano-optical pyroelectric sensor that agrees quite well with 3D-FDTD simulations that predict tunability of 12.5 nm for 32 °C.
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The fiber optic gyro 'adventure' at Photonetics, iXsea and now iXblue
Herve Lefevre,Adrien Steib,Alain Claire,Alex Sekeriyan,André Couderette,Anne-Laure Pointel,Annie Viltard,Antoine Bonnet,Arnaud Frénois,Arnaud Gandoin,Arnaud Laurent,Augustin Luton,Aurélie Galbès,Aurore Ecarnot,Benoît Cadier,Benoît Kerouanton,Bertrand Lhermitte,Brigitte Bonnafé,Carine Stuber,Carmen Ortiz,Cédric Moluçon,Chantal Allano,Charles Dunette,Christophe Ollivier,Clément Guyot,Clément Vercambre,Damien Ponceau,David Ramecourt,Elliot de Toldi,Emmanuelle Peter,Eric Ducloux,Eva Vassilakis,Fabien Colliou,Fabien Napolitano,Florence Lauvinerie,Frédéric Guattari,Gaëtan Fauquert,Gilles Mélin,Guillaume Hardy,Guillaume Lecamp,Henri Porte,Hervé Jaheny,Hugo Boiron,Jean-Jacques Bonnefois,Jean-Philippe Michel,Jean-Philippe Périot,Jérémie Pillon,J. Hauden,Joachin Honthaas,Karl Aubry,Kévin Gauthier,Laurent Lablonde,Laurent Ly,Louis Lhomme,Luc Poulain,Marc Girault,Marco Mancini,Marie Goudron,Marie-Lise Duplaquet,Marilyne Bernasconi,Matthieu Collignon,Matthieu Dacheux,Maxime Rattier,Miguel Marta,Nicolas Faussot,Nicolas Grossard,Nicolas Pirrone,Olivier Jolly,Olivier Rabine,Pascal Guitton,Pascal Mollier,Pascal Simonpiétri,Pierre Buisson,Pierrick Cheiney,Priyoshi Chakma,Rachid Taibi,Robert Blondeau,Saloomeh Shariati,Sébastien Boisgontier,Sébastien Ferrand,Sébastien Keller,Sophie Huet,Stéphane Chouvin,Stéphane Meyer,Stéphane Puille,Stéphane Ustaze,Sylvain Bénard,Sylvain Clémenceau,Théo Laudat,Thérèse Guettler-Sergeant,Thibault Dos Santos,Thidakun Peou-Sanson,Thierry Robin,Thomas Buret,Thomas Loret,Thomas Villedieu,Valérie Ferreira,Van Dong Pham,Victor Rumoroso,Yves Paturel,Hervé J. Arditty +100 more
- 13 May 2020
TL;DR: Based on the experience acquired early from pioneering work at Stanford University and Thomson-CSF starting in the mid 70s, fiber optic gyro (FOG) R&D began at Photonetics in the late 80s to yield OCTANS, a FOG-based inertial strapdown system providing attitude and gyro compassing, at the end of the 90s.
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6-micron interaction length electro-optic modulation based on lithium niobate photonic crystal cavity.
Huihui Lu,Benattou Sadani,Gwenn Ulliac,Nadège Courjal,Clément Guyot,Jean-Marc Merolla,Manuel Collet,Fadi Issam Baida,Maria-Pilar Bernal +8 more
TL;DR: This compact design opens a way towards micro and nano-scale tunable photonic devices with low driving electrical power with tunability of 0.6 nm/V.
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Strong reduction of propagation losses in LiNbO3 ridge waveguides
TL;DR: In this paper, the reproducible production of LiNbO3 ridge waveguides with propagation losses lower than 0.2 dB/cm was proposed, which can be easily extrapolated to Z-cut substrates.
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Analysis of ultra-compact waveguide modes in thin film lithium niobate
Wentao Qiu,Maria-Pilar Bernal,Abdoulaye Ndao,Clément Guyot,Nyha M. Hameed,Nadège Courjal,Hervé Maillotte,Fadi Issam Baida +7 more
TL;DR: In this paper, a parametric study of micrometric size waveguides on 700-nm thin-film lithium niobate is presented, and four different configurations in which the guiding takes place in lithium Niobate, ridge waveguide, strip-loaded waveguide and double slot waveguide are systematically investigated in order to find a good set of optimum guiding parameters for increasing light-matter interaction applications.
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