Notice détaillée
Titre
THEVE
Formal Name (French)
Groupe Thévenaz
Formal Name (English)
Thévenaz Group
Lab Manager
Infoscience team
Group ID
US05033
Auteurs affilié
Ahmadi Khatir, Ali
Alasia, Dario
Alizadeh Mousavi, Omid
Bazigos, Antonios
Besson, Jean-Philippe
Bizumic, Lazar
Dainesi, Paolo Giuseppe
Gonzalez, Miguel
Lloret Barrera, Sandra
Lo Conte, Fabrizio
Mattiello, Mario
Rastogi, Pramod
Schilt, Stéphane
Talebi Amiri, Omid
Zweiacker, Pierre
Alasia, Dario
Alizadeh Mousavi, Omid
Bazigos, Antonios
Besson, Jean-Philippe
Bizumic, Lazar
Dainesi, Paolo Giuseppe
Gonzalez, Miguel
Lloret Barrera, Sandra
Lo Conte, Fabrizio
Mattiello, Mario
Rastogi, Pramod
Schilt, Stéphane
Talebi Amiri, Omid
Zweiacker, Pierre
Institut
IEM
Faculté
STI
Note
Members of groupe thevenaz (theve)
Old institute IEL (>2021) Previous institute: IEL (>2021)
Old institute IEL (>2021) Previous institute: IEL (>2021)
Lien extérieur
http://people.epfl.ch/luc.thevenaz
Publications
A Novel All-Fiber Configuration for a Flexible Polarimetric Current Sensor
All-Optical Self-Synchronizing Scheme for Contention Resolution in Asynchronous Optical Packet Switched Networks Using Continuously Tunable Optic[...]
Bipolar pulse coding for enhanced performance in Brillouin distributed optical fiber sensors
Brillouin distributed time-domain sensing in optical fibers: state of the art and perspectives
Brillouin optical time-domain analysis over a 240 km-long fiber loop with no repeater
Double-pulse Brillouin distributed optical fiber sensors: analytical model and experimental validation
High Spatial and Spectral Resolution Long-Range Sensing Using Brillouin Echoes
Rating the performance of a Brillouin distributed fiber sensor
Self-Advanced Propagation of Light Pulse in an Optical Fiber Based on Brillouin Scattering
Simplified Brillouin fiber slow light systems in loss regime using step current modulation
Voir toutes les publications (318)
All-Optical Self-Synchronizing Scheme for Contention Resolution in Asynchronous Optical Packet Switched Networks Using Continuously Tunable Optic[...]
Bipolar pulse coding for enhanced performance in Brillouin distributed optical fiber sensors
Brillouin distributed time-domain sensing in optical fibers: state of the art and perspectives
Brillouin optical time-domain analysis over a 240 km-long fiber loop with no repeater
Double-pulse Brillouin distributed optical fiber sensors: analytical model and experimental validation
High Spatial and Spectral Resolution Long-Range Sensing Using Brillouin Echoes
Rating the performance of a Brillouin distributed fiber sensor
Self-Advanced Propagation of Light Pulse in an Optical Fiber Based on Brillouin Scattering
Simplified Brillouin fiber slow light systems in loss regime using step current modulation
Voir toutes les publications (318)
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