Add to ORKGHere we explore the radiation features of optical nanoantennas, analyzing the concepts of optical input impedance, optical radiation resistance, impedance matching, and loading of plasmonic nanodipoles. We discuss how the concept of antenna impedance may be applied to optical frequencies and how its quantity may be properly defined and evaluated. We exploit these concepts in the optimization of nanoantenna loading by optical nanocircuit elements, extending classic concepts of radio-frequency antenna theory to the visible regime for the proper design and matching of plasmonic nanoantennas
Nano-antennas in functional plasmonic applications require high near-field optical power transmissio...
Conventional antennas, which are widely employed to transmit radio and TV signals, can be used at op...
We address new optical nanoantenna systems with tunable highly directional radiation patterns. The a...
Here we explore the radiation features of optical nanoantennas, analyzing the concepts of optical in...
Impedance loading is a common technique traditionally used in the RF to enhance the performance of ...
Impedance loading is a common technique traditionally used in the RF to enhance the performance of...
Inspired by the geometry and shape of the classical radio-frequency radiator, the Hertzian dipole, h...
Optical nanoantennas, especially of the dipole type, have been theoretically and experimentally demo...
This dissertation presents a theoretical study of the design of optical nanoantennas and antenna arr...
The emission rate of a point dipole can be strongly increased in the presence of a well-designed opt...
The frequency dependent complex permittivity of plasmonic materials is one of the most decisive para...
Following our recent idea of using plasmonic and nonplasmonic nanoparticles as nanoinductors and nan...
We apply the optical nanocircuit concepts to model and design optical nanofilters in realistic plasm...
Nanoantennas are key optical components that bridge nanometer-scale optical signals to far-field, fr...
A dielectric resonator nanoantenna array is numerically investigated. The study was carried out by u...
Nano-antennas in functional plasmonic applications require high near-field optical power transmissio...
Conventional antennas, which are widely employed to transmit radio and TV signals, can be used at op...
We address new optical nanoantenna systems with tunable highly directional radiation patterns. The a...
Here we explore the radiation features of optical nanoantennas, analyzing the concepts of optical in...
Impedance loading is a common technique traditionally used in the RF to enhance the performance of ...
Impedance loading is a common technique traditionally used in the RF to enhance the performance of...
Inspired by the geometry and shape of the classical radio-frequency radiator, the Hertzian dipole, h...
Optical nanoantennas, especially of the dipole type, have been theoretically and experimentally demo...
This dissertation presents a theoretical study of the design of optical nanoantennas and antenna arr...
The emission rate of a point dipole can be strongly increased in the presence of a well-designed opt...
The frequency dependent complex permittivity of plasmonic materials is one of the most decisive para...
Following our recent idea of using plasmonic and nonplasmonic nanoparticles as nanoinductors and nan...
We apply the optical nanocircuit concepts to model and design optical nanofilters in realistic plasm...
Nanoantennas are key optical components that bridge nanometer-scale optical signals to far-field, fr...
A dielectric resonator nanoantenna array is numerically investigated. The study was carried out by u...
Nano-antennas in functional plasmonic applications require high near-field optical power transmissio...
Conventional antennas, which are widely employed to transmit radio and TV signals, can be used at op...
We address new optical nanoantenna systems with tunable highly directional radiation patterns. The a...