<  Retour au portail Polytechnique Montréal

Documents dont l'auteur est "Monet, Frédéric"

Monter d'un niveau
Pour citer ou exporter [feed] Atom [feed] RSS 1.0 [feed] RSS 2.0
Réseau de collaboration
Nuage de mots
Grouper par: Auteurs ou autrices | Date de publication | Sous-type de document | Aucun groupement
Nombre de documents: 14

Article de revue

Francoeur, J., Roberge, A., Lorre, P., Monet, F., Wright, C., Kadoury, S., & Kashyap, R. (2023). Optical frequency domain reflectometry shape sensing using an extruded optical fiber triplet for intra-arterial guidance. Optics Express, 31(1), 396-410. Lien externe

Svecic, A., Francoeur, J., Soulez, G., Monet, F., Kashyap, R., & Kadoury, S. (2023). Shape and Flow Sensing in Arterial Image Guidance From UV Exposed Optical Fibers Based on Spatio-Temporal Networks. IEEE Transactions on Biomedical Engineering, 70(5), 1692-703. Lien externe

Roberge, A., Loranger, S., Boisvert, J.-S., Monet, F., & Kashyap, R. (2022). Femtosecond laser direct-writing of high quality first-order Bragg gratings with arbitrary complex apodization by phase modulation. Optics Express, 30(17), 30405-30419. Disponible

Monet, F., Boisvert, J.-S., & Kashyap, R. (2021). A simple high-speed random number generator with minimal post-processing using a random Raman fiber laser. Scientific Reports, 11(1), 13182 (8 pages). Disponible

Parent, F., Gérard, M., Monet, F., Loranger, S., Soulez, G., Kashyap, R., & Kadoury, S. (2019). Intra-arterial Image Guidance with Optical Frequency Domain Reflectometry Shape Sensing. IEEE Transactions on Medical Imaging, 38(2), 482-492. Lien externe

Rousset, N., Monet, F., & Gervais, T. (2017). Simulation-assisted design of microfluidic sample traps for optimal trapping and culture of non-adherent single cells, tissues, and spheroids. Scientific Reports, 7(1). Disponible

Communication écrite

Francoeur, J., Roberge, A., Lorre, P., Monet, F., Wright, C., Kadoury, S., & Kashyap, R. (juillet 2022). Real-time 3D shape sensing with a random Fiber Bragg grating triplet [Communication écrite]. Optical Sensors and Sensing Congress 2022 (AIS, LACSEA, Sensors, ES), Vancouver, British Columbia. Lien externe

Svecic, A., Soulez, G., Monet, F., Kashyap, R., & Kadoury, S. (septembre 2021). Multimodal Sensing Guidewire for C-Arm Navigation with Random UV Enhanced Optical Sensors Using Spatio-Temporal Networks [Communication écrite]. 24th International Conference on Medical Image Computing and Computer-Assisted Intervention (MICCAI 2021), Strasbourg, France. Lien externe

Résumé

Monet, F., Roberge, A., & Kashyap, R. (août 2022). Physical Unclonable Functions based on random gratings [Résumé]. Latin America Optics and Photonics Conference 2022, Recife, Brazil. Publié dans Latin America Optics and Photonics (LAOP) Conference 2022, 102. Lien externe

Présentation

Thomas, J., Meyneng, T., Grégoire, N., Monet, F., Tehranchi, A., Seletskiy, D., Messaddeq, Y., & Kashyap, R. (janvier 2023). Laser-induced cooling of rare earth doped oxide-only silica glass [Présentation]. Dans SPIE Photonics West 2023, San Francisco, California, United States. Lien externe

Roberge, A., Loranger, S., Boisvert, J.-S., Monet, F., & Kashyap, R. (juillet 2022). First order femtosecond direct-writing of fiber Bragg gratings with an arbitrary complex apodization [Présentation]. Dans Advanced Photonics Congress (BGPP), Maastricht, Netherlands. Lien externe

Lorre, P., Monet, F., Gauthier, M., Poiffaut, A., Roberge, A., Kadoury, S., & Kashyap, R. (février 2020). Extruded complex optical fiber structures for shape sensing and biomedical applications [Présentation]. Dans SPIE OPTO 2020, San Francisco, California. Lien externe

Monet, F., Lambin-Iezzi, V., Boisvert, J.-S., Maubois, B., & Kashyap, R. (février 2020). ROGUE-based, random distributed feedback lasers [Présentation]. Dans SPIE LASE 2020, San Francisco, California. Lien externe

Thèse de doctorat

Monet, F. (2023). Randomness in Fiber-Based Photonics for Secure Communications [Thèse de doctorat, Polytechnique Montréal]. Disponible

Liste produite: Tue Jan 21 03:04:07 2025 EST.