Yonathan Corredores
Yonathan Corredores
PhD. in Signal Processing and Communications, University of Rennes 1
Verified email at univ-rennes1.fr
Title
Cited by
Cited by
Year
Highly tunable microwave stub resonator on ferroelectric KTa0.5Nb0.5O3 thin film
Q Simon, Y Corredores, X Castel, R Benzerga, R Sauleau, K Mahdjoubi, ...
Applied Physics Letters 99 (9), 092904, 2011
282011
Adjustment of shielding effectiveness, optical transmission, and sheet resistance of conducting films deposited on glass substrates
Y Corredores, P Besnier, X Castel, J Sol, C Dupeyrat, P Foutrel
IEEE Transactions on Electromagnetic Compatibility 59 (4), 1070-1078, 2017
82017
Study of ferroelectric/dielectric multilayers for tunable stub resonator applications at microwaves
Y Corredores, A Le Febvrier, X Castel, R Sauleau, R Benzerga, ...
Thin solid films 553, 109-113, 2014
72014
Structural, Optical, and Dielectric Properties of Bi1.5–xZn0.92–yNb1.5O6.92−δ Thin Films Grown by PLD on R-plane Sapphire and LaAlO3 Substrates
A Le Febvrier, AC Galca, Y Corredores, S Députier, V Bouquet, ...
ACS Applied Materials & Interfaces 4 (10), 5227-5233, 2012
52012
Loss Reduction Technique in Ferroelectric Tunable Devices by Laser Microetching. Application to a CPW Stub Resonator in-Band
Y Corredores, Q Simon, R Benzerga, X Castel, R Sauleau, A Le Febvrier, ...
IEEE Transactions on Electron Devices 61 (12), 4166-4170, 2014
42014
Proof of the Instrumented Semantics for Orc
M Perrin, C Jard, A Mostefaoui
22015
SE adjustment of planar mesh screen by fine-tuning metal thickness
Y Corredores, X Castel, P Besnier, C Dupeyrat, P Foutrel
The Journal of Engineering 2018 (4), 239-241, 2018
12018
Étude et amélioration des performances de dispositifs hyperfréquences accordables à base de films minces ferroélectriques KTN et diélectriques BZN
Y Corredores
UNIVERSITÉ DE RENNES 1, 2012
12012
Performance of frequency-agile CPW resonators on thin film ferroelectric material
Y Corredores, Q Simon, X Castel, R Benzerga, R Sauleau, K Mahdjoubi, ...
2012 6th European Conference on Antennas and Propagation (EUCAP), 3591-3594, 2012
12012
Optically transparent electromagnetically shielding element comprising a plurality of zones
C Dupeyrat, P Foutrel, P Besnier, X Castel, Y Corredores
US Patent App. 16/305,579, 2020
2020
Optically transparent electromagnetic shield assembly
C Dupeyrat, P Foutrel, P Besnier, X Castel, Y Corredores
US Patent App. 16/615,265, 2020
2020
Dépôt en couche mince de blindage électromagnétique préservant la transparence optique de substrats de verre: ajustement des performances par modélisation
Y Corredores, X Castel, P Besnier, P Foutrel, C Dupeyrat
2018
Element de blindage électromagnétique optiquement transparent et à plusieurs zones
C Dupeyrat, P Foutrel, P Besnier, X Castel
2017
Blindages électromagnétiques à forte transparence optique à l'aide de dépôts de films minces sur substrats diélectriques
B Philippe, X Castel, Y Corredores, C Cheype, P Foutrel, C Dupeyrat
2016
Antenne à ondes de fuite reconfigurable à l'aide de matériaux ferroélectriques
F Cissé, Y Corredores, X Castel, R Sauleau, S Députier, V Bouquet, ...
2015
Low loss tunable devices by doping of ferroelectric films and 2D localization
F Cissé, Y Corredores, A Le Febvrier, X Castel, R Sauleau, S Députier, ...
2015
MgO doping of KTN ferroelectric thin films for low loss tunable stub resonators at microwaves
F Cissé, Y Corredores, A Le Febvrier, X Castel, R Sauleau, S Députier, ...
2014
Perovskite ferroelectric oxides thin films for high frequency agile devices
M Guilloux-Viry, F Cissé, A Waroquet, A Le Febvrier, V Bouquet, ...
WODIM 2014" 18ème Workshop on Dielectrics in Microelectronics", 2014
2014
Doping and confinement synergy of KTN ferroelectric thin films for low loss tunable devices at microwaves
F Cissé, Y Corredores, A Le Febvrier, X Castel, R Sauleau, S Députier, ...
2014
Réduction des pertes diélectriques de films de KTN par dopage MgO pour dispositifs agiles en fréquence
F Cissé, Y Corredores, A Le Febvrier, X Castel, R Sauleau, S Députier, ...
2014
The system can't perform the operation now. Try again later.
Articles 1–20