Add to ORKGThe possibility to reduce the total scattering by an illuminated object is one of the most intriguing possibilities enabled by electromagnetic metamaterials and metasurfaces. In particular, the impact of cloaking in antenna systems has been found to be remarkable, due to the unprecedented degrees of freedom made available to the antenna designer. In this contribution, we report our latest results on the use of cloaking technology for microwave antennas operating either in the transmitting or in the receiving mode
Here, we discuss the design of a cloaking metasurface (MTS) capable to engineer the scattering of an...
International audienceIn this contribution, we present our latest results concerning the design of m...
Electromagnetic invisibility or cloaking represents one of the most important breakthroughs enabled ...
The possibility to reduce the total scattering by an illuminated object is one of the most intriguin...
Electromagnetic cloaking represents one of the most fascinating possibilities enabled by metamateria...
Among the different cloaking applications proposed in the literature, the antenna framework has emer...
In this contribution, we review our latest results about the unprecedented possibilities enabled by ...
The term "electromagnetic cloaking"refers to a wide class of approaches whose aim is reducing the to...
In this contribution, we discuss some of our latest results about the use of mantle cloaking in diff...
We provide a review of our results on the design of mantle cloaking devices for antenna applications...
Metamaterial technology has provided us with new tools to explore fascinating applications and physi...
In this work, we review our recent research on advanced cloaking metasurfaces used to cover monopole...
The aim of this Communication is to investigate and demonstrate the possibility to overcome the fund...
In this contribution, we describe how advanced cloaking metasurfaces allows expanding the functional...
Here, we discuss the design of a cloaking metasurface (MTS) capable to engineer the scattering of an...
International audienceIn this contribution, we present our latest results concerning the design of m...
Electromagnetic invisibility or cloaking represents one of the most important breakthroughs enabled ...
The possibility to reduce the total scattering by an illuminated object is one of the most intriguin...
Electromagnetic cloaking represents one of the most fascinating possibilities enabled by metamateria...
Among the different cloaking applications proposed in the literature, the antenna framework has emer...
In this contribution, we review our latest results about the unprecedented possibilities enabled by ...
The term "electromagnetic cloaking"refers to a wide class of approaches whose aim is reducing the to...
In this contribution, we discuss some of our latest results about the use of mantle cloaking in diff...
We provide a review of our results on the design of mantle cloaking devices for antenna applications...
Metamaterial technology has provided us with new tools to explore fascinating applications and physi...
In this work, we review our recent research on advanced cloaking metasurfaces used to cover monopole...
The aim of this Communication is to investigate and demonstrate the possibility to overcome the fund...
In this contribution, we describe how advanced cloaking metasurfaces allows expanding the functional...
Here, we discuss the design of a cloaking metasurface (MTS) capable to engineer the scattering of an...
International audienceIn this contribution, we present our latest results concerning the design of m...
Electromagnetic invisibility or cloaking represents one of the most important breakthroughs enabled ...