Friday, October 9, 2015 at 14:00
Abstract :
Nowadays wireless communication systems are more and more present in our lives, and with them, electromagnetic waves associated to them. A need of products capable to control the range of the network has appeared, for data security reasons, for data rate increase in case of network interferences or for health reasons.
On the opposite, in other cases, improving the transmission of these waves is desired. For instance, in new construction or renovated buildings, energy saving windows allows having more efficient buildings thermal speaking.
Unfortunately, those windows also block radiofrequencies, including mobile phone signals.
The aim of this thesis is the design and development of filtering structures printed on flexible substrate.
First, stop band selective filtering solutions are proposed in order to block as much as possible transmission waves, for instance, WiFi in between different rooms of the same building. Secondly, a solution to improve electromagnetic wave transmission through energy saving windows is proposed. In addition to these studies, a characterization system for testing these FSS structures has been developed during this thesis work.
Members of the jury :
Tan Phu VUONG - Supervisor
Emmanuel PISTONO - Co-supervisor
Pierre LEMAITRE-AUGER - Co-supervisor
Guy EYMIN-PETOT-TOURTOLLET - Co-supervisor
Hafdallah HABIBA OUSLIMANI - Rapporteur
Philippe BESNIER - Rapporteur
Elodie RICHALOT - Reviewer
Ke WU - Reviewer
Partenaires
Thesis prepared in the laboratory : UMR 5130 IMEP-LaHC (Institut de
Microélectronique, Electromagnétisme, Photonique – Laboratoire Hyperfréquences et Caractérisation ), supervised by Tan Phu VUONG, Supervisor and Pierre LAMAITRE-AUGER Co-supervisor
Date infos
Thesis defense of NIEMBRO MARTIN Alejandro for a DOCTORAL thesis at the University of Grenoble, Nano Electronics and Nanotechnologies speciality, entitled:
Location infos
Amphi M001-Grenoble INP - Phelma
3 Parvis Louis Néel - CS 50257
38016 Grenoble Cedex 01