Add to ORKGHere we discuss the theory and analyze in detail the guidance properties of linear arrays of metamaterial/ plasmonic small particles as nanoscale optical nanotransmission lines, including the effect of material loss. Under the assumption of dipolar approximation for each particle, which is shown to be accurate in the geometry of interest here, we develop closed-form analytical expressions for the eigenmodal dispersion in such arrays. With the material loss included, the conditions for minimal absorption and maximum bandwidth are derived analytically by studying the properties of such dispersion relations. Numerical examples with realistic materials, including their ohmic absorption and frequency dispersion, are presented. The analytical pro...
Composite materials based on plasmonic nanoparticles allow building metamaterials with very large ef...
The interaction of electromagnetic waves with materials is at the basis of several phenomena influen...
We numerically investigate the band structure and guided modes within arrays of metallic nanowires. ...
Here we discuss the theory and analyze in detail the guidance properties of linear arrays of metamat...
Here we discuss the theory and analyze in detail the guidance properties of linear arrays of metamat...
Following our recent theoretical development of the concept of nano-inductors, nano-capacitors and n...
Following our recent theoretical development of the concept of nano-inductors, nano-capacitors and n...
International audienceWe study the propagation characteristics of optical signals in waveguides comp...
The employment of periodic arrays of plasmonic nanoparticles has been proposed by several groups for...
In this paper we review our recent advances in subwavelength plasmonic structures in linear and nonl...
We present a very efficient recursive method to calculate the effective optical response of nanostru...
International audiencePeriodic arrays of proximate but noncontacting noble metal nanoparticles provi...
In this contribution, we describe the optical properties of bi-dimensional arrays of ellipsoidal nan...
Controlling light in the nanoscale has significant uses for the ultracompact and ultrafast communica...
The control of light–material interactions at the nanoscale requires optical elements with sizes muc...
Composite materials based on plasmonic nanoparticles allow building metamaterials with very large ef...
The interaction of electromagnetic waves with materials is at the basis of several phenomena influen...
We numerically investigate the band structure and guided modes within arrays of metallic nanowires. ...
Here we discuss the theory and analyze in detail the guidance properties of linear arrays of metamat...
Here we discuss the theory and analyze in detail the guidance properties of linear arrays of metamat...
Following our recent theoretical development of the concept of nano-inductors, nano-capacitors and n...
Following our recent theoretical development of the concept of nano-inductors, nano-capacitors and n...
International audienceWe study the propagation characteristics of optical signals in waveguides comp...
The employment of periodic arrays of plasmonic nanoparticles has been proposed by several groups for...
In this paper we review our recent advances in subwavelength plasmonic structures in linear and nonl...
We present a very efficient recursive method to calculate the effective optical response of nanostru...
International audiencePeriodic arrays of proximate but noncontacting noble metal nanoparticles provi...
In this contribution, we describe the optical properties of bi-dimensional arrays of ellipsoidal nan...
Controlling light in the nanoscale has significant uses for the ultracompact and ultrafast communica...
The control of light–material interactions at the nanoscale requires optical elements with sizes muc...
Composite materials based on plasmonic nanoparticles allow building metamaterials with very large ef...
The interaction of electromagnetic waves with materials is at the basis of several phenomena influen...
We numerically investigate the band structure and guided modes within arrays of metallic nanowires. ...