Add to ORKGModeling the response of nanoantennas excited by a localized emitter is extremely computational intensive. Transformation optics can ease this task. Here we show the conformal transformation required to model a plasmonic bow-tie as a parallel-plate plasmonic waveguide. The eigenmodes of a parallel-plate plasmonic waveguide can be calculated analytically, enabling the calculation of the eigenmodes and the absorption cross section of the original bow-tie via the transformation. Full-wave simulations corroborate the approach
We apply an analytical procedure that uses a periodic Green's function based on the Ewald representa...
Surface plasmon resonances of optical bowtie nanoantennas with symmetry breaking are studied numeric...
Understanding and controlling the light-matter interaction is of fundamental importance for science ...
The unprecedented advance experienced by nanofabrication techniques and plasmonics research over the...
The unprecedented advance experienced by nanofabrication techniques and plasmonics research over the...
The unprecedented advance experienced by nano- fabrication techniques and plasmonics research over t...
Plasmonic nanoantennas have revolutionized the way we study and modulate light–matter interaction. D...
A full analytical description of a bowtie nanoantenna excited by a localized emitter is presented us...
20 páginas, 9 figuras.In this paper, we analyze how transformation optics recipes can be applied to ...
Symmetries play an important role in many branches of physics and enable simplification of the mathe...
We study transformation of surface modes in plasmonic waveguides when the loss strength is varying f...
In this work, bowtie nanoantennas and nanocavities are analyzed using the conformal transformation t...
This review article provides the state of the art in the emerging topic of transformation plasmonics...
ABSTRACT We propose and demonstrate efficiently molding surface plasmon polaritons (SPPs) based on t...
ABSTRACT On the basis of conformal transformation, a general strategy is proposed to design plasmoni...
We apply an analytical procedure that uses a periodic Green's function based on the Ewald representa...
Surface plasmon resonances of optical bowtie nanoantennas with symmetry breaking are studied numeric...
Understanding and controlling the light-matter interaction is of fundamental importance for science ...
The unprecedented advance experienced by nanofabrication techniques and plasmonics research over the...
The unprecedented advance experienced by nanofabrication techniques and plasmonics research over the...
The unprecedented advance experienced by nano- fabrication techniques and plasmonics research over t...
Plasmonic nanoantennas have revolutionized the way we study and modulate light–matter interaction. D...
A full analytical description of a bowtie nanoantenna excited by a localized emitter is presented us...
20 páginas, 9 figuras.In this paper, we analyze how transformation optics recipes can be applied to ...
Symmetries play an important role in many branches of physics and enable simplification of the mathe...
We study transformation of surface modes in plasmonic waveguides when the loss strength is varying f...
In this work, bowtie nanoantennas and nanocavities are analyzed using the conformal transformation t...
This review article provides the state of the art in the emerging topic of transformation plasmonics...
ABSTRACT We propose and demonstrate efficiently molding surface plasmon polaritons (SPPs) based on t...
ABSTRACT On the basis of conformal transformation, a general strategy is proposed to design plasmoni...
We apply an analytical procedure that uses a periodic Green's function based on the Ewald representa...
Surface plasmon resonances of optical bowtie nanoantennas with symmetry breaking are studied numeric...
Understanding and controlling the light-matter interaction is of fundamental importance for science ...