Add to ORKGWe report the first experimental demonstration of an optical trap that uses interference fringes for the trapping and micro-manipulation of microscopic objects. The fringes can be generated either by two-beam interference or by projecting a reduced image of a Ronchi ruling on the sample plane. Polystyrene beads of a few microns in diameter can be trapped and held in a bright region of a set of interference fringes and subsequently moved to a designated position by sweeping the fringes across the field of view. The potential advantages of extending this technique to the trapping of rod-shaped samples and for independent micro-manipulation of two or more particles are discussed
Controlled rotation of trapped particles in a spiral interference pattern was investigated using opt...
Optical tweezers are an innovative technique for the non-contact, all-optical manipulation of small ...
Optical tweezers(1) are commonly used for manipulating microscopic particles, with applications in c...
We report the first experimental demonstration of an optical trap that uses interference fringes for...
This research shows that micro particles can be manipulated via interferometric patterns superimpose...
The alignment and simultaneous manipulation in 2-dimensions of both hollow spheres and rod-like part...
We demonstrate optical trapping and manipulation of low-index spheres in two dimensions, using the p...
We present an experimental demonstration of multiple optical tweezers based on interference of two c...
Optical tweezers are an important tool in the field of biophysics due to their ability to precisely ...
The simultaneous positioning of multiple colloidal particles using optical tweezers is described her...
In existing control techniques for optical tweezers, a target particle is directly trapped and manip...
We show how the trapping position of an optically trapped 1-µm polystyrene bead is measured, and tha...
With a tightly focused single laser beam, also called optical tweezers, particles of a few nanometer...
An optical tweezers technique is used for ultraprecise micromanipulation to measure positions of mic...
In this paper, we prove the usefulness of the diffractive optical elements to generate arrays of opt...
Controlled rotation of trapped particles in a spiral interference pattern was investigated using opt...
Optical tweezers are an innovative technique for the non-contact, all-optical manipulation of small ...
Optical tweezers(1) are commonly used for manipulating microscopic particles, with applications in c...
We report the first experimental demonstration of an optical trap that uses interference fringes for...
This research shows that micro particles can be manipulated via interferometric patterns superimpose...
The alignment and simultaneous manipulation in 2-dimensions of both hollow spheres and rod-like part...
We demonstrate optical trapping and manipulation of low-index spheres in two dimensions, using the p...
We present an experimental demonstration of multiple optical tweezers based on interference of two c...
Optical tweezers are an important tool in the field of biophysics due to their ability to precisely ...
The simultaneous positioning of multiple colloidal particles using optical tweezers is described her...
In existing control techniques for optical tweezers, a target particle is directly trapped and manip...
We show how the trapping position of an optically trapped 1-µm polystyrene bead is measured, and tha...
With a tightly focused single laser beam, also called optical tweezers, particles of a few nanometer...
An optical tweezers technique is used for ultraprecise micromanipulation to measure positions of mic...
In this paper, we prove the usefulness of the diffractive optical elements to generate arrays of opt...
Controlled rotation of trapped particles in a spiral interference pattern was investigated using opt...
Optical tweezers are an innovative technique for the non-contact, all-optical manipulation of small ...
Optical tweezers(1) are commonly used for manipulating microscopic particles, with applications in c...