In this contribution, we present our recent results on the study of the propagation and design of the scattering response exhibited by a temporal metamaterial, i.e. artificial material whose electromagnetic properties are suddenly and dynamically changed over time. We focus our attention on the temporal counterparts of conventional dielectric slabs and multilayered structures. The first is realized through two sudden media switching during the propagation of the wave, which enables a scattering response like the one exhibited by a conventional spatial dielectric slab. In case of more than two switchings, we realize the temporal counterpart of a multilayered structures. We demonstrate that by properly selecting the application time of each m...
Time-varying metamaterials and metasurfaces have unlocked a novel way for the electromagnetic waves ...
Photonic time crystals are artificial materials whose electromagnetic properties are uniform in spac...
This thesis provides an insight into the world of metamaterials, and the way in whichwaves propagate...
Electromagnetic scattering typically occurs when a change in the material properties is perceived by...
Temporal metamaterials are artificial materials whose electromagnetic properties change over time. I...
Time-varying metamaterials are artificial materials whose electromagnetic properties change over tim...
Temporal metamaterials have been recently exploited as a novel platform for conceiving several elect...
In this contribution, we propose the design in time-domain of two key components in electromagnetic ...
In this contribution we present the most recent results from our group about the opportunities offer...
Temporal metamaterials are artificial materials whose electromagnetic properties vary over time. An ...
Publisher Copyright: © 2021 American Physical Society.The recently developed concept of time-varying...
The important topic of temporal soliton propagation in double-negative metamaterials is discussed wi...
Multisection quarter-wave impedance transformers are widely applied in microwave engineering and opt...
In this contribution we present the opportunities offered by artificial non-reciprocity and frequenc...
Time-modulation of material parameters is a powerful tool that enables ultimate control over scatter...
Time-varying metamaterials and metasurfaces have unlocked a novel way for the electromagnetic waves ...
Photonic time crystals are artificial materials whose electromagnetic properties are uniform in spac...
This thesis provides an insight into the world of metamaterials, and the way in whichwaves propagate...
Electromagnetic scattering typically occurs when a change in the material properties is perceived by...
Temporal metamaterials are artificial materials whose electromagnetic properties change over time. I...
Time-varying metamaterials are artificial materials whose electromagnetic properties change over tim...
Temporal metamaterials have been recently exploited as a novel platform for conceiving several elect...
In this contribution, we propose the design in time-domain of two key components in electromagnetic ...
In this contribution we present the most recent results from our group about the opportunities offer...
Temporal metamaterials are artificial materials whose electromagnetic properties vary over time. An ...
Publisher Copyright: © 2021 American Physical Society.The recently developed concept of time-varying...
The important topic of temporal soliton propagation in double-negative metamaterials is discussed wi...
Multisection quarter-wave impedance transformers are widely applied in microwave engineering and opt...
In this contribution we present the opportunities offered by artificial non-reciprocity and frequenc...
Time-modulation of material parameters is a powerful tool that enables ultimate control over scatter...
Time-varying metamaterials and metasurfaces have unlocked a novel way for the electromagnetic waves ...
Photonic time crystals are artificial materials whose electromagnetic properties are uniform in spac...
This thesis provides an insight into the world of metamaterials, and the way in whichwaves propagate...