Add to ORKGInternational audienceControlling the transport, trapping, and filtering of nanoparticles is important for many applications. By virtue of their weak response to gravity and their thermal motion, various physical mechanisms can be exploited for such operations on nanoparticles. However, the manipulation based on optical forces is potentially most appealing since it constitutes a highly deterministic approach. Plasmonic nanostructures have been suggested for this purpose, but they possess the disadvantages of locally generating heat and trapping the nanoparticles directly on the surface. Here, we propose the use of dielectric rings made of high permittivity materials for trapping nanoparticles. Thanks to their ability to strongly localize th...
AbstractWe investigate the manipulation of microscopic and nanoscopic particles using the evanescent...
Optical trapping has found wide range of applications because it allows for precise control and posi...
Optical trapping is currently widely applied in the field of biotechnology, in which one critical is...
Interaction of electromagnetic waves with small particles has been extensively investigated for dete...
We demonstrate a three dimensional nanoparticle trapping approach aided by the surface plasmon reson...
The feasibility of using gold nano-rings as plasmonic nano-optical tweezers is investigated. We foun...
The precise noninvasive optical manipulation of nanometer-sized particles by evanescent fields, inst...
Optical trapping using focused laser beams (laser tweezers) has been proven to be extremely useful f...
Over the last few years, the notion that links optical trapping with strong intensity of light (high...
Optical trapping using focused laser beams (laser tweezers) has been proven to be extremely useful f...
This work focuses on trapping subwavelength objects using resonant plasmonic structures. Trapping en...
The ability to optically trap nanoscale particles in a reliable and noninvasive manner is emerging a...
Optically trapped nanoparticles can be used as efficient mobile probes of nanoscopic forces and temp...
Optical trapping is an established field for movement of micron-size objects and cells. However, tra...
Optical manipulation – using light to control matter – is based on the transfer of momentum from con...
AbstractWe investigate the manipulation of microscopic and nanoscopic particles using the evanescent...
Optical trapping has found wide range of applications because it allows for precise control and posi...
Optical trapping is currently widely applied in the field of biotechnology, in which one critical is...
Interaction of electromagnetic waves with small particles has been extensively investigated for dete...
We demonstrate a three dimensional nanoparticle trapping approach aided by the surface plasmon reson...
The feasibility of using gold nano-rings as plasmonic nano-optical tweezers is investigated. We foun...
The precise noninvasive optical manipulation of nanometer-sized particles by evanescent fields, inst...
Optical trapping using focused laser beams (laser tweezers) has been proven to be extremely useful f...
Over the last few years, the notion that links optical trapping with strong intensity of light (high...
Optical trapping using focused laser beams (laser tweezers) has been proven to be extremely useful f...
This work focuses on trapping subwavelength objects using resonant plasmonic structures. Trapping en...
The ability to optically trap nanoscale particles in a reliable and noninvasive manner is emerging a...
Optically trapped nanoparticles can be used as efficient mobile probes of nanoscopic forces and temp...
Optical trapping is an established field for movement of micron-size objects and cells. However, tra...
Optical manipulation – using light to control matter – is based on the transfer of momentum from con...
AbstractWe investigate the manipulation of microscopic and nanoscopic particles using the evanescent...
Optical trapping has found wide range of applications because it allows for precise control and posi...
Optical trapping is currently widely applied in the field of biotechnology, in which one critical is...