Add to ORKGLight carries momenta that can be transferred to objects. Relying on gradient forces created by structured light, one can trap and move microscopic particles. Aside from the conservative action of gradient forces, light always pushes an object along its direction of propagation. Here, we demonstrate that gradientless light fields can exert pulling forces on arbitrary objects in a purely passive dielectric environment and without resorting to non-paraxial illumination, interference of multiple beams, gain or other exotic materials. The forces acting against the flow of light arise naturally due to the appropriate amplification of the photon linear momentum when light is scattered from one dielectric medium into another with higher refractive...
We study the effect of pulling optical force acting on a nonmagnetic anisotropic bead in electromagn...
Usually a light beam pushes a particle when the photons act upon it.We investigate the optical force...
Optical forces are widely used to manipulate microparticles such as living cells, DNA and bacteria. ...
Light carries momenta that can be transferred to objects. Relying on gradient forces created by stru...
Light carries momenta that can be transferred to objects. Relying on gradient forces created by stru...
We demonstrate for the first time that paraxial beams can exert long range optical pulling forces on...
Nowadays, optical forces are widely used to control or measure the position of micrometer-to nanomet...
The interaction between light and matter involves not only an energy transfer, but also the transfer...
We show that the optical properties of an extended dielectric object are reliably reproduced by a la...
We show how transformation optics can enhance optical gradient forces between two optical waveguides...
We demonstrate how the optical gradient force between two waveguides can be enhanced using transform...
Significant forces between dielectric objects can be induced by intense optical fields. We discuss t...
Propulsive effects of light, which often remain unnoticed in our daily-life experience, manifest the...
We present a new approach for determining optical gradient forces applied by strongly focused laser ...
1 The scattering force calculation and momentum of electromagnetic wave in medium In the main text, ...
We study the effect of pulling optical force acting on a nonmagnetic anisotropic bead in electromagn...
Usually a light beam pushes a particle when the photons act upon it.We investigate the optical force...
Optical forces are widely used to manipulate microparticles such as living cells, DNA and bacteria. ...
Light carries momenta that can be transferred to objects. Relying on gradient forces created by stru...
Light carries momenta that can be transferred to objects. Relying on gradient forces created by stru...
We demonstrate for the first time that paraxial beams can exert long range optical pulling forces on...
Nowadays, optical forces are widely used to control or measure the position of micrometer-to nanomet...
The interaction between light and matter involves not only an energy transfer, but also the transfer...
We show that the optical properties of an extended dielectric object are reliably reproduced by a la...
We show how transformation optics can enhance optical gradient forces between two optical waveguides...
We demonstrate how the optical gradient force between two waveguides can be enhanced using transform...
Significant forces between dielectric objects can be induced by intense optical fields. We discuss t...
Propulsive effects of light, which often remain unnoticed in our daily-life experience, manifest the...
We present a new approach for determining optical gradient forces applied by strongly focused laser ...
1 The scattering force calculation and momentum of electromagnetic wave in medium In the main text, ...
We study the effect of pulling optical force acting on a nonmagnetic anisotropic bead in electromagn...
Usually a light beam pushes a particle when the photons act upon it.We investigate the optical force...
Optical forces are widely used to manipulate microparticles such as living cells, DNA and bacteria. ...