Add to ORKGWe use laser beams with radial and azimuthal polarization to optically trap carbon nanotubes. We measure force constants and trap parameters as a function of power showing improved axial trapping efficiency with respect to linearly polarized beams. The analysis of the thermal fluctuations highlights a significant change in the optical trapping potential when using cylindrical vector beams. This enables the use of polarization states to shape optical traps according to the particle geometry, as well as paving the way to nanoprobe-based photonic force microscopy with increased performance compared to a standard linearly polarized configuration. © 2012 Optical Society of America
We propose and demonstrate a compact all-fiber laser generating cylindrical vector beam (CVB) using ...
We propose and demonstrate a compact all-fiber laser generating cylindrical vector beam (CVB) using ...
Individual carbon nanotubes being substantially smaller than the wavelength of light, are not much r...
Optical trapping by a highly focused laser beam has been extensively used for the manipulation of su...
We study optical trapping of nanotubes and graphene. We extract the distribution of both centre-of-m...
We study optical trapping of nanotubes and graphene. We extract the distribution of both centre-of-m...
We extract the distribution of both center-of-mass and angular fluctuations from three-dimensional t...
The main purpose of this thesis is to investigate the eff ects of polarization on optical forces as...
We report on the use of cylindrical vector beams for optical manipulation of micron and sub-micron s...
ABSTRACT. We report on the use of cylindrical vector beams for optical manipulation of micron and su...
The main purpose of this thesis is to investigate the eff ects of polarization on optical forces as...
Optical trapping and manipulation of atoms, nanoparticles, and biological entities are widely employ...
Optical trapping and manipulation of atoms, nanoparticles, and biological entities are widely employ...
Optical trapping and manipulation of atoms, nanoparticles, and biological entities are widely employ...
Optical trapping and manipulation of atoms, nanoparticles, and biological entities are widely employ...
We propose and demonstrate a compact all-fiber laser generating cylindrical vector beam (CVB) using ...
We propose and demonstrate a compact all-fiber laser generating cylindrical vector beam (CVB) using ...
Individual carbon nanotubes being substantially smaller than the wavelength of light, are not much r...
Optical trapping by a highly focused laser beam has been extensively used for the manipulation of su...
We study optical trapping of nanotubes and graphene. We extract the distribution of both centre-of-m...
We study optical trapping of nanotubes and graphene. We extract the distribution of both centre-of-m...
We extract the distribution of both center-of-mass and angular fluctuations from three-dimensional t...
The main purpose of this thesis is to investigate the eff ects of polarization on optical forces as...
We report on the use of cylindrical vector beams for optical manipulation of micron and sub-micron s...
ABSTRACT. We report on the use of cylindrical vector beams for optical manipulation of micron and su...
The main purpose of this thesis is to investigate the eff ects of polarization on optical forces as...
Optical trapping and manipulation of atoms, nanoparticles, and biological entities are widely employ...
Optical trapping and manipulation of atoms, nanoparticles, and biological entities are widely employ...
Optical trapping and manipulation of atoms, nanoparticles, and biological entities are widely employ...
Optical trapping and manipulation of atoms, nanoparticles, and biological entities are widely employ...
We propose and demonstrate a compact all-fiber laser generating cylindrical vector beam (CVB) using ...
We propose and demonstrate a compact all-fiber laser generating cylindrical vector beam (CVB) using ...
Individual carbon nanotubes being substantially smaller than the wavelength of light, are not much r...