Understanding and controlling the light-matter interaction is of fundamental importance for science and technology. Scenarios involving nanoemitters and nanoantennas are nowadays routinely measured in the lab. However, interpretation of the observations is not always straightforward. We will show here how conformal transformation can be used to provide an analytical description of the commonly used bowtie nanoantenna and its trimer counterpart
We present a transformation-optics approach which sheds analytical insight into the impact that spat...
Strong and directionally specific forward scattering from optical nanoantennas is of utmost importan...
We address new optical nanoantenna systems with tunable highly directional radiation patterns. The a...
In this work, bowtie nanoantennas and nanocavities are analyzed using the conformal transformation t...
Symmetries play an important role in many branches of physics and enable simplification of the mathe...
Plasmonic nanoantennas have revolutionized the way we study and modulate light–matter interaction. D...
The unprecedented advance experienced by nano- fabrication techniques and plasmonics research over t...
A full analytical description of a bowtie nanoantenna excited by a localized emitter is presented us...
Nanogaps supporting cavity plasmonic modes with unprecedented small mode volume are attractive platf...
The unprecedented advance experienced by nanofabrication techniques and plasmonics research over the...
Nanophotonics is a rapidly developing field, which aims to control light-matter interaction at the n...
The unprecedented advance experienced by nanofabrication techniques and plasmonics research over the...
Light manipulation via nanoantennas, especially plasmonic nanoantennas, is an exciting new field, wh...
ABSTRACT: This paper reports that arrays of three-dimen-sional (3D), bowtie-shaped Au nanoparticle d...
Surface plasmon resonances of optical bowtie nanoantennas with symmetry breaking are studied numeric...
We present a transformation-optics approach which sheds analytical insight into the impact that spat...
Strong and directionally specific forward scattering from optical nanoantennas is of utmost importan...
We address new optical nanoantenna systems with tunable highly directional radiation patterns. The a...
In this work, bowtie nanoantennas and nanocavities are analyzed using the conformal transformation t...
Symmetries play an important role in many branches of physics and enable simplification of the mathe...
Plasmonic nanoantennas have revolutionized the way we study and modulate light–matter interaction. D...
The unprecedented advance experienced by nano- fabrication techniques and plasmonics research over t...
A full analytical description of a bowtie nanoantenna excited by a localized emitter is presented us...
Nanogaps supporting cavity plasmonic modes with unprecedented small mode volume are attractive platf...
The unprecedented advance experienced by nanofabrication techniques and plasmonics research over the...
Nanophotonics is a rapidly developing field, which aims to control light-matter interaction at the n...
The unprecedented advance experienced by nanofabrication techniques and plasmonics research over the...
Light manipulation via nanoantennas, especially plasmonic nanoantennas, is an exciting new field, wh...
ABSTRACT: This paper reports that arrays of three-dimen-sional (3D), bowtie-shaped Au nanoparticle d...
Surface plasmon resonances of optical bowtie nanoantennas with symmetry breaking are studied numeric...
We present a transformation-optics approach which sheds analytical insight into the impact that spat...
Strong and directionally specific forward scattering from optical nanoantennas is of utmost importan...
We address new optical nanoantenna systems with tunable highly directional radiation patterns. The a...