Add to ORKGPlasmonic brings the promise to overcome both the speed limitation of electronics and the scalability issue of photonics, however it is affected by fundamental issues such as large ohmic losses, lack of tunability and CMOS compatibility. All these problems prevent a widespread of plasmonic technologies. My research focuses on developing a new class of plasmonic devices based on Transparent Conductive Oxides (TCOs). Because of their low losses in the NIR, their fabrication flexibility, and exceptional optical nonlinearities, TCOs could drastically mitigate all the previously listed limitations. Great part of the thesis deals with the characterization of Aluminium Zinc Oxide (AZO) and Gallium Zinc Oxide (GZO) in the linear and nonline...
Due to the high rate of optical losses and the extensive usage of noble metals, alternative plasmoni...
We study electromagnetic pulse propagation in an indium tin oxide nanolayer in the linear and nonlin...
Epsilon-near-zero materials are an emerging class of nanophotonic materials which engender electroma...
Nanophotonics and metamaterials have revolutionized the way we think about optical space (ɛ,μ), enab...
We report the simultaneous increase of both nonlinear Kerr coefficient n2 and thirdorder nonlinear s...
Towards the fabrication of all-dielectric nanophotonic devices with tunable capabilities, we combine...
We report the simultaneous increase of both nonlinear Kerr coefficient n(2) and third-order nonlinea...
Transparent conducting oxides (TCOs) show unprecedented optical nonlinearities in the near infrared ...
AbstractPlasmonics is a revolutionary branch of photonics which offers the benefit of both nanoscale...
Strong nonlinear materials have been sought after for decades for applications in telecommunications...
We report the simultaneous increase of both nonlinear Kerr coefficient n2 and third-order nonlinear...
In the past decade, there have been many breakthroughs in the field of plasmonics and nanophotonics ...
One of the longstanding goals of photonics research has been to obtain strong optical nonlinearities...
We demonstrate the possibility of using transparent conducting oxides [aluminum-doped zinc oxide (AZ...
Transparent conducting oxides (TCOs) exhibit interesting linear and nonlinear optical properties in ...
Due to the high rate of optical losses and the extensive usage of noble metals, alternative plasmoni...
We study electromagnetic pulse propagation in an indium tin oxide nanolayer in the linear and nonlin...
Epsilon-near-zero materials are an emerging class of nanophotonic materials which engender electroma...
Nanophotonics and metamaterials have revolutionized the way we think about optical space (ɛ,μ), enab...
We report the simultaneous increase of both nonlinear Kerr coefficient n2 and thirdorder nonlinear s...
Towards the fabrication of all-dielectric nanophotonic devices with tunable capabilities, we combine...
We report the simultaneous increase of both nonlinear Kerr coefficient n(2) and third-order nonlinea...
Transparent conducting oxides (TCOs) show unprecedented optical nonlinearities in the near infrared ...
AbstractPlasmonics is a revolutionary branch of photonics which offers the benefit of both nanoscale...
Strong nonlinear materials have been sought after for decades for applications in telecommunications...
We report the simultaneous increase of both nonlinear Kerr coefficient n2 and third-order nonlinear...
In the past decade, there have been many breakthroughs in the field of plasmonics and nanophotonics ...
One of the longstanding goals of photonics research has been to obtain strong optical nonlinearities...
We demonstrate the possibility of using transparent conducting oxides [aluminum-doped zinc oxide (AZ...
Transparent conducting oxides (TCOs) exhibit interesting linear and nonlinear optical properties in ...
Due to the high rate of optical losses and the extensive usage of noble metals, alternative plasmoni...
We study electromagnetic pulse propagation in an indium tin oxide nanolayer in the linear and nonlin...
Epsilon-near-zero materials are an emerging class of nanophotonic materials which engender electroma...