Add to ORKGThis research shows that micro particles can be manipulated via interferometric patterns superimposed on an optical tweezers beam. Interferometry allows the manipulation of intensity distributions, and thus, force distributions on a trapped particle. To demonstrate the feasibility of such manipulation, 458 nm light, from an argon-ion laser, was injected into a Mach Zender interferometer. One mirror in the interferometer was oscillated with a piezoelectric phase modulator. The light from the interferometer was then injected into a microscope to trap a 9.75 micron polystyrene sphere. By varying the phase modulation, the sphere was made to oscillate in a controlled fashion
The simultaneous positioning of multiple colloidal particles using optical tweezers is described her...
A set of experiments aimed at observing specific aspects of optical trapping and micromanipulation o...
In recent years, optical micromachines based on forces exerted by strongly focused beams of light ha...
We report the first experimental demonstration of an optical trap that uses interference fringes for...
A new method to control microparticles was developed in-house at the NASA Glenn Research Center in s...
We demonstrate optical trapping and manipulation of low-index spheres in two dimensions, using the p...
Manipulation with microscopic objects facilitated deeper understanding of the light-matter interact...
In existing control techniques for optical tweezers, a target particle is directly trapped and manip...
An optical tweezers technique is used for ultraprecise micromanipulation to measure positions of mic...
Optical tweezers, formed by a highly focused laser beam, have intriguing applications in biology and...
With a tightly focused single laser beam, also called optical tweezers, particles of a few nanometer...
Using a laser beam that is focused down to a diffraction-limited spot, particles with a size ranging...
Optical tweezers are an important tool in the field of biophysics due to their ability to precisely ...
The method of optical manipulation of micro particles using optical tweezers was discovered many yea...
Optical trapping and micromanipulation has developed from an interesting novelty to a powerful and w...
The simultaneous positioning of multiple colloidal particles using optical tweezers is described her...
A set of experiments aimed at observing specific aspects of optical trapping and micromanipulation o...
In recent years, optical micromachines based on forces exerted by strongly focused beams of light ha...
We report the first experimental demonstration of an optical trap that uses interference fringes for...
A new method to control microparticles was developed in-house at the NASA Glenn Research Center in s...
We demonstrate optical trapping and manipulation of low-index spheres in two dimensions, using the p...
Manipulation with microscopic objects facilitated deeper understanding of the light-matter interact...
In existing control techniques for optical tweezers, a target particle is directly trapped and manip...
An optical tweezers technique is used for ultraprecise micromanipulation to measure positions of mic...
Optical tweezers, formed by a highly focused laser beam, have intriguing applications in biology and...
With a tightly focused single laser beam, also called optical tweezers, particles of a few nanometer...
Using a laser beam that is focused down to a diffraction-limited spot, particles with a size ranging...
Optical tweezers are an important tool in the field of biophysics due to their ability to precisely ...
The method of optical manipulation of micro particles using optical tweezers was discovered many yea...
Optical trapping and micromanipulation has developed from an interesting novelty to a powerful and w...
The simultaneous positioning of multiple colloidal particles using optical tweezers is described her...
A set of experiments aimed at observing specific aspects of optical trapping and micromanipulation o...
In recent years, optical micromachines based on forces exerted by strongly focused beams of light ha...