Add to ORKGAn emitter near a surface induces an image dipole that can modify the observed emission intensity and radiation pattern. These image-dipole effects are generally not taken into account in single-emitter tracking and super-resolved imaging applications. Here we show that the interference between an emitter and its image dipole induces a strong polarization anisotropy and a large spatial displacement of the observed emission pattern. We demon-strate these effects by tracking the emission of a single quantum dot along two orthogonal polarizations as it is deterministically positioned near a silver nanowire. The two orthogonally polarized diffraction spots can be displaced by up to 50 nm, which arises from a Young’s interference effect between ...
Nanoantenna is one of the most important optical components for light harvesting. In this study, we ...
The emission features of a single emitter embedded in a nanostructure are closely related to the loc...
Nanoscale single-photon emitters behave generally as dipoles. Here, we demonstrate multipolar and un...
Using quantum dot fluorescence imaging, we investigated the interference of surface plasmon beams in...
Abstract Optical properties of single emitters can be significantly improved through the interaction...
Optical nanoantennas coherently scatter incident optical radiation, creating a localized electromagn...
Image dipole effects are highly dependent on the polarization direction, constructive (destructive) ...
The correlation of the polarization of light absorbed that are emitted by a QD embedded in a nanowir...
Nanoscale single-photon emitters behave generally as dipoles. Here, we demonstrate multipolar and un...
We report on the optical properties of single quantum dots in nanowires probed along orthogonal dire...
In this paper, we theoretically analyze the emission of guided polaritons accompanying spontaneous ...
journal articleOptical antennas can be used to manipulate the direction and polarization of radiatio...
Due to small optical mode volumes and linear polarizations of surface-plasmon-polariton (SPP) resona...
Plasmonic nano-objects have shown great potential in enhancing sensing, energy transfer and computin...
We report polarization tomography experiments on metallic nanohole arrays with square and hexagonal ...
Nanoantenna is one of the most important optical components for light harvesting. In this study, we ...
The emission features of a single emitter embedded in a nanostructure are closely related to the loc...
Nanoscale single-photon emitters behave generally as dipoles. Here, we demonstrate multipolar and un...
Using quantum dot fluorescence imaging, we investigated the interference of surface plasmon beams in...
Abstract Optical properties of single emitters can be significantly improved through the interaction...
Optical nanoantennas coherently scatter incident optical radiation, creating a localized electromagn...
Image dipole effects are highly dependent on the polarization direction, constructive (destructive) ...
The correlation of the polarization of light absorbed that are emitted by a QD embedded in a nanowir...
Nanoscale single-photon emitters behave generally as dipoles. Here, we demonstrate multipolar and un...
We report on the optical properties of single quantum dots in nanowires probed along orthogonal dire...
In this paper, we theoretically analyze the emission of guided polaritons accompanying spontaneous ...
journal articleOptical antennas can be used to manipulate the direction and polarization of radiatio...
Due to small optical mode volumes and linear polarizations of surface-plasmon-polariton (SPP) resona...
Plasmonic nano-objects have shown great potential in enhancing sensing, energy transfer and computin...
We report polarization tomography experiments on metallic nanohole arrays with square and hexagonal ...
Nanoantenna is one of the most important optical components for light harvesting. In this study, we ...
The emission features of a single emitter embedded in a nanostructure are closely related to the loc...
Nanoscale single-photon emitters behave generally as dipoles. Here, we demonstrate multipolar and un...