Séminaire du groupe EPHONI – Pr D. Mencarelli

TIME-HARMONIC TRANSFORMATION OPTICS FOR RIGOROUS SIMULATION OF OPTO-MECHANICAL CAVITIES

Davide Mencarelli

Mardi 11 juillet 2017  – 11h00, Salle du conseil LCI, Villeneuve d’Ascq
Pr. Davide MencarelliUniversity Polytechnic of Marche, Italy

Key personnel:

Davide Mencarelli: received the ‘Laurea’ Degree (summa cum laude) in Electronics Engineering in 2002, and was awarded the PhD degree in 2005 from the Università Politecnica delle Marche, Italy. Currently, he is with the Department of Biomedical Electronic and Telecommunication Engineering of the same University. His previous research interests were in analysis and modelling of integrated non-linear electro-optic devices, periodic photonic arrays, and nanoscale devices and carbon nanostructures. Currently, he is working on the analysis of the electromagnetic properties of graphene, graphene nano-ribbons, including the modelling of practical devices such as nano-FETs (field effect transistors), optical nano-sources, and microwave probes for near-field microscopy. He is a member of the Italian University Network for the Physics of Matter (CNISM)

Séminaire du groupe EPHONI – Pr D. Mencarelli

TIME-HARMONIC TRANSFORMATION OPTICS FOR RIGOROUS SIMULATION OF OPTO-MECHANICAL CAVITIES

Davide Mencarelli

Mardi 11 juillet 2017  – 11h00, Salle du conseil LCI, Villeneuve d’Ascq
Pr. Davide MencarelliUniversity Polytechnic of Marche, Italy

Key personnel:

Davide Mencarelli: received the ‘Laurea’ Degree (summa cum laude) in Electronics Engineering in 2002, and was awarded the PhD degree in 2005 from the Università Politecnica delle Marche, Italy. Currently, he is with the Department of Biomedical Electronic and Telecommunication Engineering of the same University. His previous research interests were in analysis and modelling of integrated non-linear electro-optic devices, periodic photonic arrays, and nanoscale devices and carbon nanostructures. Currently, he is working on the analysis of the electromagnetic properties of graphene, graphene nano-ribbons, including the modelling of practical devices such as nano-FETs (field effect transistors), optical nano-sources, and microwave probes for near-field microscopy. He is a member of the Italian University Network for the Physics of Matter (CNISM)