Details
Title
MNWAVE
Formal Name (French)
Adaptive Micronano Wave Systems
Formal Name (English)
Adaptive Micronano Wave Systems
Lab Manager
Infoscience team
Group ID
U12441
Affiliated authors
Carrasco Yepez, Francisco Eduardo
Gomez Diaz, Juan Sebastian
Hasani, Hamed
Perruisseau-Carrier, Julien
Rodrigo Lopez, Daniel
Romano, Pietro
Sharma, Pankaj
Tamagnone, Michele
Yousefbeiki, Mohsen
Gomez Diaz, Juan Sebastian
Hasani, Hamed
Perruisseau-Carrier, Julien
Rodrigo Lopez, Daniel
Romano, Pietro
Sharma, Pankaj
Tamagnone, Michele
Yousefbeiki, Mohsen
Institute
IEM
Faculty
STI
Note
Members of MNWAVE (GR-JPC)
Old institute IEL (>2021) Previous institute: IEL (>2021)
Old institute IEL (>2021) Previous institute: IEL (>2021)
Publications
A MEMS-reconfigurable 1-D metamaterial and its applications
A tapered CRLH mushroom-like leaky wave antenna with reduced sidelobe level
A tunable millimeter-wave phase shifter driven by dielectric elastomer actuators
Design of tunable biperiodic graphene metasurfaces
Development and application of an efficient method for the analysis of losses in microwave structures embedding discrete control elements
Efficient optimization of the phase diagram in digitally-controlled reflective cells
Enhanced periodic structure analysis based on a multiconductor transmission line model and application to metamaterials
Micromachined and MEMS-reconfigurable Ku-band TL-based Metamaterials
Study of spatial dispersion in graphene parallel-plate waveguides and equivalent circuit
Unit cells for dual-polarized and polarization-flexible reflectarrays with scanning capabilities
See complete list of publications (191)
A tapered CRLH mushroom-like leaky wave antenna with reduced sidelobe level
A tunable millimeter-wave phase shifter driven by dielectric elastomer actuators
Design of tunable biperiodic graphene metasurfaces
Development and application of an efficient method for the analysis of losses in microwave structures embedding discrete control elements
Efficient optimization of the phase diagram in digitally-controlled reflective cells
Enhanced periodic structure analysis based on a multiconductor transmission line model and application to metamaterials
Micromachined and MEMS-reconfigurable Ku-band TL-based Metamaterials
Study of spatial dispersion in graphene parallel-plate waveguides and equivalent circuit
Unit cells for dual-polarized and polarization-flexible reflectarrays with scanning capabilities
See complete list of publications (191)
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