New technological frontiers appear every year, and few are as intriguing as the field of plasmonic metamaterials (PMMs). These uniquely designed materials use coherent electron oscillations to accomplish an astonishing array of tasks, and they present diverse opportunities in many scientific fields. This paper consists of an explanation of the scientific background of PMMs and some technological applications of these fascinating materials. The physics section addresses the foundational concepts necessary to understand the operation of PMMs, while the technology section addresses various applications, like precise biological and chemical sensors, cloaking devices for several frequency ranges, nanoscale photovoltaics, experimental optical com...
dissertationPlasmonic metasurfaces offer a unique capability to manipulate amplitude, phase and/or p...
Plasmonics gives researchers in universities and industries and designers an overview of phenomena e...
© 2020 Author(s). Plasmonics enables a wealth of applications, including photocatalysis, photoelectr...
New technological frontiers appear every year, and few are as intriguing as the field of plasmonic m...
Thesis advisor: Krzysztof KempaPlasmons are quantized quasiparticles of the electron density waves. ...
Electrons and photons can coexist as a single entity called a surface plasmon—an elementary excitati...
Plasmonics and metamaterials are growing fields that consistently produce new technologies for contr...
Metamaterials is a new field of interdisciplinary research, which deals with artificial material com...
Plasmonics is a rapidly developing field at the boundary of physical optics and condensed matter phy...
Plasmonics is a rapidly developing field that combines fundamental research and applications ranging...
For millennia, scientists have sought to uncover the secrets of what holds the world together. Optic...
We report on a novel way of reducing plasmonic losses in noble metals commonly used in the fabricati...
textPlasmonics is an important branch of optics and photonics, focusing on the electromagnetic respo...
In recent years, the emerging areas of nanophotonics and, in particular, plasmonics and metamaterial...
Throughout human history, the control of light, electricity and heat has evolved to become the corne...
dissertationPlasmonic metasurfaces offer a unique capability to manipulate amplitude, phase and/or p...
Plasmonics gives researchers in universities and industries and designers an overview of phenomena e...
© 2020 Author(s). Plasmonics enables a wealth of applications, including photocatalysis, photoelectr...
New technological frontiers appear every year, and few are as intriguing as the field of plasmonic m...
Thesis advisor: Krzysztof KempaPlasmons are quantized quasiparticles of the electron density waves. ...
Electrons and photons can coexist as a single entity called a surface plasmon—an elementary excitati...
Plasmonics and metamaterials are growing fields that consistently produce new technologies for contr...
Metamaterials is a new field of interdisciplinary research, which deals with artificial material com...
Plasmonics is a rapidly developing field at the boundary of physical optics and condensed matter phy...
Plasmonics is a rapidly developing field that combines fundamental research and applications ranging...
For millennia, scientists have sought to uncover the secrets of what holds the world together. Optic...
We report on a novel way of reducing plasmonic losses in noble metals commonly used in the fabricati...
textPlasmonics is an important branch of optics and photonics, focusing on the electromagnetic respo...
In recent years, the emerging areas of nanophotonics and, in particular, plasmonics and metamaterial...
Throughout human history, the control of light, electricity and heat has evolved to become the corne...
dissertationPlasmonic metasurfaces offer a unique capability to manipulate amplitude, phase and/or p...
Plasmonics gives researchers in universities and industries and designers an overview of phenomena e...
© 2020 Author(s). Plasmonics enables a wealth of applications, including photocatalysis, photoelectr...
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