Add to ORKGWe show that, for the resonant metal-dielectric structures with sub-wavelength confinement of light in all three dimensions, the loss cannot be reduced considerably below the loss of the metal itself unless one operates in the far IR and THz regions of the spectrum or below. Such high losses cannot be compensated by introducing gain due to Purcell-induced shortening of recombination times. The only way low loss optical meta-materials can be engineered is with, as yet unknown, low loss materials with negative permittivity
he ability to manipulate light at the nanoscale is the cornerstone for a wide range of applications ...
The study of optics has changed over the past 3000 years. We have developed beyond the early lens te...
Here we discuss the theory and analyze in detail the guidance properties of linear arrays of metamat...
We show that when one looks beyond the Drude model of metal conductivity, the metals that may be ext...
Plasmonics aims at combining features of photonics and electronics by coupling photons with a free-e...
We report on a novel way of reducing plasmonic losses in noble metals commonly used in the fabricati...
Metamaterials (MMs) are artificial, engineered materials with rationally designed compositions and a...
Metamaterials (MMs) are artificial, engineered materials with rationally designed compositions and a...
Metamaterials (MMs) are artificial, engineered materials with rationally designed compositions and a...
Material losses in metals are a central bottleneck in plasmonics for many applications. Here we prop...
In this work we review methods to decrease the optical absorption losses in metamaterials. The pract...
At visible and infrared frequencies, metals show tantalizing promise for strong subwavelength resona...
Nano-optics is usually associated with plasmonic structures made of noble metals to enhance the elec...
Here we discuss the theory and analyze in detail the guidance properties of linear arrays of metamat...
In this work we review methods to decrease the optical absorption losses in metamaterials. The pract...
he ability to manipulate light at the nanoscale is the cornerstone for a wide range of applications ...
The study of optics has changed over the past 3000 years. We have developed beyond the early lens te...
Here we discuss the theory and analyze in detail the guidance properties of linear arrays of metamat...
We show that when one looks beyond the Drude model of metal conductivity, the metals that may be ext...
Plasmonics aims at combining features of photonics and electronics by coupling photons with a free-e...
We report on a novel way of reducing plasmonic losses in noble metals commonly used in the fabricati...
Metamaterials (MMs) are artificial, engineered materials with rationally designed compositions and a...
Metamaterials (MMs) are artificial, engineered materials with rationally designed compositions and a...
Metamaterials (MMs) are artificial, engineered materials with rationally designed compositions and a...
Material losses in metals are a central bottleneck in plasmonics for many applications. Here we prop...
In this work we review methods to decrease the optical absorption losses in metamaterials. The pract...
At visible and infrared frequencies, metals show tantalizing promise for strong subwavelength resona...
Nano-optics is usually associated with plasmonic structures made of noble metals to enhance the elec...
Here we discuss the theory and analyze in detail the guidance properties of linear arrays of metamat...
In this work we review methods to decrease the optical absorption losses in metamaterials. The pract...
he ability to manipulate light at the nanoscale is the cornerstone for a wide range of applications ...
The study of optics has changed over the past 3000 years. We have developed beyond the early lens te...
Here we discuss the theory and analyze in detail the guidance properties of linear arrays of metamat...