Add to ORKGWe construct metamaterials from sub-wavelength nonmagnetic resonators and consider the refraction of incoming signals traveling from free space into the metamaterial. We show that the direction of the transmitted signal is a function of its center frequency and bandwidth. The directionality of the transmitted signal and its frequency dependence is shown to be explicitly controlled by sub-wavelength resonances that can be calculated from the geometry of the sub-wavelength scatters. We outline how to construct a medium with both positive and negative index properties across different frequency bands in the near infrared and optical regime
The negative refraction and evanescent-wave canalization effects supported by a layered metamaterial...
We review experimental studies on left-handed metamaterials operating at microwave frequencies. Left...
Two dimensional (2D) left-handed metamaterials (LHM) exhibiting negative refraction and subwavelengt...
We construct metamaterials from sub-wavelength nonmagnetic resonators and consider the refraction of...
We construct metamaterials from sub-wavelength nonmagnetic resonators and consider the refraction of...
All-dielectric metamaterials comprised of identical resonators draw a lot of attention as low-loss m...
We report the transmission characteristics of split-ring resonator and left-handed metamaterials (LH...
We review the studies conducted in our group concerning electromagnetic properties of metamaterials ...
We propose a novel way to achieve an exceptionally wide frequency range where metamaterial possesses...
We apply the optical nanocircuit concepts to design and analyze in detail a three-dimensional (3D) p...
We review experimental studies performed on left-handed metamaterials (LHM) at microwave frequencies...
This thesis deals with the control of the wave propagation at deep sub-wavelength scales in locally ...
We apply the optical nanocircuit concepts to design and analyze in detail a three-dimensional (3D) p...
This thesis deals with the control of the wave propagation at deep sub-wavelength scales in locally ...
Artificially structured composite metamaterials consist of sub-wavelength sized structures that exhi...
The negative refraction and evanescent-wave canalization effects supported by a layered metamaterial...
We review experimental studies on left-handed metamaterials operating at microwave frequencies. Left...
Two dimensional (2D) left-handed metamaterials (LHM) exhibiting negative refraction and subwavelengt...
We construct metamaterials from sub-wavelength nonmagnetic resonators and consider the refraction of...
We construct metamaterials from sub-wavelength nonmagnetic resonators and consider the refraction of...
All-dielectric metamaterials comprised of identical resonators draw a lot of attention as low-loss m...
We report the transmission characteristics of split-ring resonator and left-handed metamaterials (LH...
We review the studies conducted in our group concerning electromagnetic properties of metamaterials ...
We propose a novel way to achieve an exceptionally wide frequency range where metamaterial possesses...
We apply the optical nanocircuit concepts to design and analyze in detail a three-dimensional (3D) p...
We review experimental studies performed on left-handed metamaterials (LHM) at microwave frequencies...
This thesis deals with the control of the wave propagation at deep sub-wavelength scales in locally ...
We apply the optical nanocircuit concepts to design and analyze in detail a three-dimensional (3D) p...
This thesis deals with the control of the wave propagation at deep sub-wavelength scales in locally ...
Artificially structured composite metamaterials consist of sub-wavelength sized structures that exhi...
The negative refraction and evanescent-wave canalization effects supported by a layered metamaterial...
We review experimental studies on left-handed metamaterials operating at microwave frequencies. Left...
Two dimensional (2D) left-handed metamaterials (LHM) exhibiting negative refraction and subwavelengt...