The localized surface plasmon resonance (LSPR) is used for light confinement within sub-wavelength scale. The fields are localized and re-directed with the metal nanoantennas. The localization of electric field inside and outside of such a nanoantenna depends upon its shape, the metal, and substrate. Therefore, it is possible to tailor the resonant wavelength by changing the nanoantenna parameters. In this thesis, I have used epsilon-near-zero (ENZ) metamaterial as a substrate to dictate the LSPR of golden (Au) nanodisk (ND) antenna arrays. The hyperbolic metamaterial (HMM), which consists of metal and dielectric alternating layers, designed to have an effective permittivity (epsilon) close to zero. The ENZ substrate with almost zero index...
Metasurfaces are ultrathin, quasi-two-dimensional materials that are engineered to control and manip...
Metamaterials are artificial metallic structures having, possibly, simultaneously negative permittiv...
dissertationPlasmonic metasurfaces offer a unique capability to manipulate amplitude, phase and/or p...
The localized surface plasmon resonance (LSPR) is used for light confinement within sub-wavelength s...
Localized plasmon resonance of a metal nanoantenna is determined by its size, shape and environment....
In this work, we performed an extensive theoretical and experimental study to unveil the underlying ...
Nanophotonics is a booming field of research with the promise of chip-scale devices which harness th...
Resonances are the cornerstone of photonic applications in many areas of physics and engineering. Th...
My PhD is focused on the design, fabrication and optoelectronic applications of epsilon-near-zero (...
textPlasmonics is an important branch of optics and photonics, focusing on the electromagnetic respo...
The frequency dependent complex permittivity of plasmonic materials is one of the most decisive para...
Metamaterials are man-made artificial materials of which the optical properties can be engineered to...
Strong coupling of nano-antenna with the quantum emitters is required for many quantum applications....
International audienceNanophotonics requires a very fine control over the size and shape of nanofeat...
The major challenges in the study of light-matter interaction in the deep subwavelength regime are t...
Metasurfaces are ultrathin, quasi-two-dimensional materials that are engineered to control and manip...
Metamaterials are artificial metallic structures having, possibly, simultaneously negative permittiv...
dissertationPlasmonic metasurfaces offer a unique capability to manipulate amplitude, phase and/or p...
The localized surface plasmon resonance (LSPR) is used for light confinement within sub-wavelength s...
Localized plasmon resonance of a metal nanoantenna is determined by its size, shape and environment....
In this work, we performed an extensive theoretical and experimental study to unveil the underlying ...
Nanophotonics is a booming field of research with the promise of chip-scale devices which harness th...
Resonances are the cornerstone of photonic applications in many areas of physics and engineering. Th...
My PhD is focused on the design, fabrication and optoelectronic applications of epsilon-near-zero (...
textPlasmonics is an important branch of optics and photonics, focusing on the electromagnetic respo...
The frequency dependent complex permittivity of plasmonic materials is one of the most decisive para...
Metamaterials are man-made artificial materials of which the optical properties can be engineered to...
Strong coupling of nano-antenna with the quantum emitters is required for many quantum applications....
International audienceNanophotonics requires a very fine control over the size and shape of nanofeat...
The major challenges in the study of light-matter interaction in the deep subwavelength regime are t...
Metasurfaces are ultrathin, quasi-two-dimensional materials that are engineered to control and manip...
Metamaterials are artificial metallic structures having, possibly, simultaneously negative permittiv...
dissertationPlasmonic metasurfaces offer a unique capability to manipulate amplitude, phase and/or p...