Add to ORKGWe present calculations of the optical forces between two metal nanospheres forming a hybridized plasmonic chiller. We consider homo- and heterodimers and investigate different plane wave illumination configurations. The forces between the particles are calculated using kill Mie theory combined with the Maxwell stress tensor (MST) formalism, as well as by approximate methods, such as the Lorentz force (LF) approach taken in the dipole limit and calculations based on an optical potential. We show that the simplified calculation schemes can lead to serious errors in the case of strongly interacting particles and low damping. In particular, we find that equilibrium configurations, corresponding to vanishing optical forces, only are possible fo...
The Maxwell stress tensor method is used to calculate the optical forces acting upon a glass nanosph...
Plasmonic nanoparticles, typically gold and silver colloids, can be trapped by a highly focused Gaus...
We apply the recently developed plasmon hybridization method to nanoparticle dimers, providing a sim...
We present calculations of the optical forces between two metal nanospheres forming a hybridized pla...
We theoretically analyze optical forces on aggregates of metal nanoparticles in a focused Gaussian b...
We theoretically analyze optical forces on aggregates of metal nanoparticles in a focused Gaussian b...
We theoretically analyze optical forces on aggregates of metal nanoparticles in a focused Gaussian b...
We have used the Maxwell stress tensor method to calculate the optical forces acting upon a dielectr...
With the rapid development of nanoscience and nanotechnology, surface plasmonics based on metal nan...
With the rapid development of nanoscience and nanotechnology, surface plasmonics based on metal nan...
Plasmonic antennas improve the stiffness and resolution of optical tweezers by producing a strong ne...
Optical trapping of metal nanoparticles investigates phenomena at the interface of plasmonics and op...
Abstract In this paper we show analytically and numerically the formation of a near-field stable opt...
The physical origins of transverse optical binding force and torque beyond Rayleigh approximation ha...
n this article, we share our vision for a future nanofactory, where plasmonic trapping is used to co...
The Maxwell stress tensor method is used to calculate the optical forces acting upon a glass nanosph...
Plasmonic nanoparticles, typically gold and silver colloids, can be trapped by a highly focused Gaus...
We apply the recently developed plasmon hybridization method to nanoparticle dimers, providing a sim...
We present calculations of the optical forces between two metal nanospheres forming a hybridized pla...
We theoretically analyze optical forces on aggregates of metal nanoparticles in a focused Gaussian b...
We theoretically analyze optical forces on aggregates of metal nanoparticles in a focused Gaussian b...
We theoretically analyze optical forces on aggregates of metal nanoparticles in a focused Gaussian b...
We have used the Maxwell stress tensor method to calculate the optical forces acting upon a dielectr...
With the rapid development of nanoscience and nanotechnology, surface plasmonics based on metal nan...
With the rapid development of nanoscience and nanotechnology, surface plasmonics based on metal nan...
Plasmonic antennas improve the stiffness and resolution of optical tweezers by producing a strong ne...
Optical trapping of metal nanoparticles investigates phenomena at the interface of plasmonics and op...
Abstract In this paper we show analytically and numerically the formation of a near-field stable opt...
The physical origins of transverse optical binding force and torque beyond Rayleigh approximation ha...
n this article, we share our vision for a future nanofactory, where plasmonic trapping is used to co...
The Maxwell stress tensor method is used to calculate the optical forces acting upon a glass nanosph...
Plasmonic nanoparticles, typically gold and silver colloids, can be trapped by a highly focused Gaus...
We apply the recently developed plasmon hybridization method to nanoparticle dimers, providing a sim...