Add to ORKGWe suggest a model of an optical structure that allows to accelerate nanoparticles to velocities on the order of tens of centimeters per second using low-intensity external optical fields. The nano-accelerator system employs metallic V-grooves which concentrate the electric field in the vicinity of their bottoms and creates large optical gradient forces for the nanoparticles in that groove. The conditions are found when this optical force tends to eject particles away from the groove
We demonstrate the ultrafast generation of electrons from tailored metallic nanoparticles and unrave...
Interaction between light beams at different frequencies requires an object, mediating the process. ...
This chapter discusses a hydrodynamics-inspired approach to trap and manipulate light in plasmonic n...
We suggest a model of an optical structure that allows to accelerate nanoparticles to velocities on ...
A laser-driven particle accelerator based on plasmonic nanoantennas is proposed and analyzed. The co...
A metallic metasurface-based laser-driven particle accelerator for subrelativistic particles is prop...
<p> We propose and theoretically demonstrate the generation of optical traction of nanoparticles th...
International audienceA plasmon-assisted channeling acceleration can be realized with a large channe...
Plasmonic space propulsion uses solar light focused onto deep-subwavelength nanostructures to excite...
The objective of this research is to manufacture and investigate the characteristics and use of asym...
The optical forces acting on nanoparticles in V-shaped plasmonic resonators with a high local-field ...
Laser propulsion and guide of nanosized objects is fundamental for a wide number of applications. Th...
We have studied particle acceleration in different nanostructured targets irradiated by high intensi...
The strong electromagnetic field that is induced at the surface of a plasmonic nanoparticle can be u...
TeV/m acceleration gradients using crystals as originally envisioned by R. Hofstadter, an early pion...
We demonstrate the ultrafast generation of electrons from tailored metallic nanoparticles and unrave...
Interaction between light beams at different frequencies requires an object, mediating the process. ...
This chapter discusses a hydrodynamics-inspired approach to trap and manipulate light in plasmonic n...
We suggest a model of an optical structure that allows to accelerate nanoparticles to velocities on ...
A laser-driven particle accelerator based on plasmonic nanoantennas is proposed and analyzed. The co...
A metallic metasurface-based laser-driven particle accelerator for subrelativistic particles is prop...
<p> We propose and theoretically demonstrate the generation of optical traction of nanoparticles th...
International audienceA plasmon-assisted channeling acceleration can be realized with a large channe...
Plasmonic space propulsion uses solar light focused onto deep-subwavelength nanostructures to excite...
The objective of this research is to manufacture and investigate the characteristics and use of asym...
The optical forces acting on nanoparticles in V-shaped plasmonic resonators with a high local-field ...
Laser propulsion and guide of nanosized objects is fundamental for a wide number of applications. Th...
We have studied particle acceleration in different nanostructured targets irradiated by high intensi...
The strong electromagnetic field that is induced at the surface of a plasmonic nanoparticle can be u...
TeV/m acceleration gradients using crystals as originally envisioned by R. Hofstadter, an early pion...
We demonstrate the ultrafast generation of electrons from tailored metallic nanoparticles and unrave...
Interaction between light beams at different frequencies requires an object, mediating the process. ...
This chapter discusses a hydrodynamics-inspired approach to trap and manipulate light in plasmonic n...