Add to ORKGWe demonstrate optical trapping and dynamic manipulation of microparticles using multicore and few-mode fibers. Tuning of the input state of polarization of the trapping beam allows for particle rotation and adjustable trapping distances
The dual beam fiber trap is an important tool in the field of optical micromanipulation. The charact...
Optical trapping of dielectric microparticles is reported using an optical tweezers based on two ori...
We present the use of optical fibers to form a counter-propagating optical trap as a means of manipu...
We demonstrate optical trapping and dynamic manipulation of microparticles using multicore and few-m...
We demonstrate a simple approach based on a photonic lantern spatial-mode multiplexer and a few-mode...
The use of diffractive optical elements (DOEs) for multiple trapping of dielectric micro-spheres imm...
We present an experimental method, based on the use of dynamic split-lens configurations, useful for...
Optical fiber trapping is a technique utilized for manipulating micron-sized dielectric particles su...
Multimode (MM) fibers have not been considered as useful in the context of optical trapping by radia...
We report multiple optical trapping of microscopic dielectric particles using diffractive optical el...
Trapping and manipulation of microscopic objects using fiber optical traps is gaining considerable i...
This paper reports on cell and microparticle manipulation using optically induced dielectrophoresis....
Optical trapping of sub−micrometer particles in three dimensions has been attracting increasing atte...
We demonstrate optical trapping and rotation of microparticles and bacteria with propelling beams. T...
Optical tweezers can be used to trap, move, and rotate or align microscopic particles. Elongated par...
The dual beam fiber trap is an important tool in the field of optical micromanipulation. The charact...
Optical trapping of dielectric microparticles is reported using an optical tweezers based on two ori...
We present the use of optical fibers to form a counter-propagating optical trap as a means of manipu...
We demonstrate optical trapping and dynamic manipulation of microparticles using multicore and few-m...
We demonstrate a simple approach based on a photonic lantern spatial-mode multiplexer and a few-mode...
The use of diffractive optical elements (DOEs) for multiple trapping of dielectric micro-spheres imm...
We present an experimental method, based on the use of dynamic split-lens configurations, useful for...
Optical fiber trapping is a technique utilized for manipulating micron-sized dielectric particles su...
Multimode (MM) fibers have not been considered as useful in the context of optical trapping by radia...
We report multiple optical trapping of microscopic dielectric particles using diffractive optical el...
Trapping and manipulation of microscopic objects using fiber optical traps is gaining considerable i...
This paper reports on cell and microparticle manipulation using optically induced dielectrophoresis....
Optical trapping of sub−micrometer particles in three dimensions has been attracting increasing atte...
We demonstrate optical trapping and rotation of microparticles and bacteria with propelling beams. T...
Optical tweezers can be used to trap, move, and rotate or align microscopic particles. Elongated par...
The dual beam fiber trap is an important tool in the field of optical micromanipulation. The charact...
Optical trapping of dielectric microparticles is reported using an optical tweezers based on two ori...
We present the use of optical fibers to form a counter-propagating optical trap as a means of manipu...