Add to ORKGIn this paper, we prove the usefulness of the diffractive optical elements to generate arrays of optical tweezers. A set of micro-particles can be thus trapped in three dimensions and each micro-particle can be then moved independently.</p
Very high frequency oscillations of intense light fields interact with micron-size dielectric object...
In existing control techniques for optical tweezers, a target particle is directly trapped and manip...
Optical tweezers, formed by a highly focused laser beam, have intriguing applications in biology and...
In this paper, we prove the usefulness of the diffractive optical elements to generate arrays of opt...
Although optical tweezers have been a valuable research tool since their invention in the 1980s, the...
Optical tweezer arrays generated by diffractive optical elements can extend the capabilities to mani...
We discuss a new technique to generate force gradient in arrays of optical traps. The arrays can be ...
The use of a wire mesh facilitates creation of multiple optical traps for manipulation of small micr...
The simultaneous positioning of multiple colloidal particles using optical tweezers is described her...
The use of diffractive optical elements (DOEs) for multiple trapping of dielectric micro-spheres imm...
Abstract — We describe the design and construction of two different types of multiple-beam optical t...
A method and apparatus for control of optical trap arrays and formation of particle arrays using lig...
For optical tweezers, a tiny focal spot of the trapping beam is necessary for providing sufficient i...
Optical tweezers(1) are commonly used for manipulating microscopic particles, with applications in c...
Hexagonal arrays of micron sized silica beads have been trapped in three-dimensions within an optica...
Very high frequency oscillations of intense light fields interact with micron-size dielectric object...
In existing control techniques for optical tweezers, a target particle is directly trapped and manip...
Optical tweezers, formed by a highly focused laser beam, have intriguing applications in biology and...
In this paper, we prove the usefulness of the diffractive optical elements to generate arrays of opt...
Although optical tweezers have been a valuable research tool since their invention in the 1980s, the...
Optical tweezer arrays generated by diffractive optical elements can extend the capabilities to mani...
We discuss a new technique to generate force gradient in arrays of optical traps. The arrays can be ...
The use of a wire mesh facilitates creation of multiple optical traps for manipulation of small micr...
The simultaneous positioning of multiple colloidal particles using optical tweezers is described her...
The use of diffractive optical elements (DOEs) for multiple trapping of dielectric micro-spheres imm...
Abstract — We describe the design and construction of two different types of multiple-beam optical t...
A method and apparatus for control of optical trap arrays and formation of particle arrays using lig...
For optical tweezers, a tiny focal spot of the trapping beam is necessary for providing sufficient i...
Optical tweezers(1) are commonly used for manipulating microscopic particles, with applications in c...
Hexagonal arrays of micron sized silica beads have been trapped in three-dimensions within an optica...
Very high frequency oscillations of intense light fields interact with micron-size dielectric object...
In existing control techniques for optical tweezers, a target particle is directly trapped and manip...
Optical tweezers, formed by a highly focused laser beam, have intriguing applications in biology and...