Add to ORKGHyperbolic metamaterials provide a platform for a new type of optical manipulation using highly confined extraordinary modes. Here we predict and analyze optical attracting forces acting on a small particle inside a hyperbolic slab
The optical force acting on a nanoparticle near a planar substrate is governed by incident light and...
We propose an approach to enhance and direct the spontaneous emission from isolated emitters embedde...
We study theoretically the dramatic enhancement of spontaneous emission in metamaterials with the hy...
Control over mechanical motion of nanoscale particles is a valuable functionality desired in a varie...
Auxiliary nanostructures introduce additional flexibility into optomechanical manipulation schemes. ...
Optical forces acting on nanoobjects can be enhanced, inverted or cancelled out by the presence of c...
We show and investigate the optical forces acting on a particle in the vicinity of a planar wavegui...
Electromagnetic metamaterials, artificial media created by subwavelength structuring, are useful for...
In recent years a wide interest has been spurred by the inverse design of artificial materials for n...
Hyperbolic materials enable numerous surprising applications that include far-field subwavelength im...
We have identified a new type of optically-driven force, the near-field force of attraction between ...
We study the effect of pulling optical force acting on a nonmagnetic anisotropic bead in electromagn...
Strongly anisotropic media where the principal components of electric permittivity or magnetic perme...
Here we demonstrate that giant transverse optical forces can be generated in nanoscale slot waveguid...
We examine the optical properties of two different configurations of a cylindrical device made from ...
The optical force acting on a nanoparticle near a planar substrate is governed by incident light and...
We propose an approach to enhance and direct the spontaneous emission from isolated emitters embedde...
We study theoretically the dramatic enhancement of spontaneous emission in metamaterials with the hy...
Control over mechanical motion of nanoscale particles is a valuable functionality desired in a varie...
Auxiliary nanostructures introduce additional flexibility into optomechanical manipulation schemes. ...
Optical forces acting on nanoobjects can be enhanced, inverted or cancelled out by the presence of c...
We show and investigate the optical forces acting on a particle in the vicinity of a planar wavegui...
Electromagnetic metamaterials, artificial media created by subwavelength structuring, are useful for...
In recent years a wide interest has been spurred by the inverse design of artificial materials for n...
Hyperbolic materials enable numerous surprising applications that include far-field subwavelength im...
We have identified a new type of optically-driven force, the near-field force of attraction between ...
We study the effect of pulling optical force acting on a nonmagnetic anisotropic bead in electromagn...
Strongly anisotropic media where the principal components of electric permittivity or magnetic perme...
Here we demonstrate that giant transverse optical forces can be generated in nanoscale slot waveguid...
We examine the optical properties of two different configurations of a cylindrical device made from ...
The optical force acting on a nanoparticle near a planar substrate is governed by incident light and...
We propose an approach to enhance and direct the spontaneous emission from isolated emitters embedde...
We study theoretically the dramatic enhancement of spontaneous emission in metamaterials with the hy...