Reversal and tunability of the surface plasmon enhanced optical forces on a nanorod pair in the presence of a dielectric interlayer
textThis thesis presents spectroscopic studies of metallic nanoparticle localized surface plasmons a...
Analyses of the resonances of both symmetric and antisymmetric polarization states in pairs of tight...
The utilization of the enhanced local field near trapped metallic nanoparticles due to surface-plasm...
We investigate numerically the effect of axial rotation and the presence of a dielectric intralayer ...
With the rapid development of nanoscience and nanotechnology, surface plasmonics based on metal nan...
An extension of the Maxwell Garnett theory is used to computationally study the influence of metal n...
ABSTRACT: We demonstrate that in a hybrid plasmonic system the optical force exerted on a dielectric...
The way a fluorophore behaves in free space is very different from the way that it behaves in the pr...
It is of particular importance to bridge nanophotonics and nanomechanics by utilizing near-field-ind...
We have used the Maxwell stress tensor method to calculate the optical forces acting upon a dielectr...
We present calculations of the optical forces between two metal nanospheres forming a hybridized pla...
We demonstrate both analytically and numerically the existence of optical pulling forces acting on p...
This project examines how the collective oscillation of electrons in optically excited metal nanopar...
We numerically show that both repulsive and attractive (bipolar) optical forces can be exerted on a ...
Controlled orientation and alignment of rod‐shaped plasmonic nanoparticles are of great interest for...
textThis thesis presents spectroscopic studies of metallic nanoparticle localized surface plasmons a...
Analyses of the resonances of both symmetric and antisymmetric polarization states in pairs of tight...
The utilization of the enhanced local field near trapped metallic nanoparticles due to surface-plasm...
We investigate numerically the effect of axial rotation and the presence of a dielectric intralayer ...
With the rapid development of nanoscience and nanotechnology, surface plasmonics based on metal nan...
An extension of the Maxwell Garnett theory is used to computationally study the influence of metal n...
ABSTRACT: We demonstrate that in a hybrid plasmonic system the optical force exerted on a dielectric...
The way a fluorophore behaves in free space is very different from the way that it behaves in the pr...
It is of particular importance to bridge nanophotonics and nanomechanics by utilizing near-field-ind...
We have used the Maxwell stress tensor method to calculate the optical forces acting upon a dielectr...
We present calculations of the optical forces between two metal nanospheres forming a hybridized pla...
We demonstrate both analytically and numerically the existence of optical pulling forces acting on p...
This project examines how the collective oscillation of electrons in optically excited metal nanopar...
We numerically show that both repulsive and attractive (bipolar) optical forces can be exerted on a ...
Controlled orientation and alignment of rod‐shaped plasmonic nanoparticles are of great interest for...
textThis thesis presents spectroscopic studies of metallic nanoparticle localized surface plasmons a...
Analyses of the resonances of both symmetric and antisymmetric polarization states in pairs of tight...
The utilization of the enhanced local field near trapped metallic nanoparticles due to surface-plasm...