Add to ORKGABSTRACT: We demonstrate that laser pulse duration, which determines its impulsive peak power, is an effective parameter to control the number of optically trapped dielectric nanoparticles, their ejections along the directions perpendicular to polarization vector, and their migration distances from the trapping site. This ability to controllably confine and eject the nanoparticle is explained by pulse width-dependent optical forces exerted on nanoparticles in the trapping site and ratio between the repulsive and attractive forces. We also show that the directional ejections occur only when the number of nanoparticles confined in the trapping site exceeds a definite threshold. We interpret our data by considering the formation of transient a...
We investigate the effects of pulse duration on optical trapping with high repetition rate ultrashor...
Optical trapping using focused laser beams (laser tweezers) has been proven to be extremely useful f...
International audienceOptical tweezers have paved the way towards the manipulation of particles and ...
We demonstrate that laser pulse duration, which determines its impulsive peak power, is an effective...
© XXXX American Chemical Society. We investigated femtosecond laser trapping dynamics of silica nano...
Crucial to effective optical trapping is the ability to precisely control the nature of force/potent...
Plasmonic nanoparticles, typically gold and silver colloids, can be trapped by a highly focused Gaus...
The invention of the laser in 1960 opened the door for a myriad of studies on the interactions betwe...
We present a comparison of optical trapping of 50-nm-sized silica nanospheres, suspended in water me...
We theoretically investigate the opto-mechanical interactions between a dielectric nanoparticle and ...
In this article the gradient force of optical trap using two counter-propagating pulsed Gaussian bea...
This thesis reports exploratory research on new optical and chemical phenomena of molecular, metal a...
Optical trapping is an established field for movement of micron-size objects and cells. However, tra...
Optical tweezers have paved the way towards the manipulation of particles and living cells at the mi...
doi:10.3791/4424 (2013). Optical trapping is a technique for immobilizing and manipulating small obj...
We investigate the effects of pulse duration on optical trapping with high repetition rate ultrashor...
Optical trapping using focused laser beams (laser tweezers) has been proven to be extremely useful f...
International audienceOptical tweezers have paved the way towards the manipulation of particles and ...
We demonstrate that laser pulse duration, which determines its impulsive peak power, is an effective...
© XXXX American Chemical Society. We investigated femtosecond laser trapping dynamics of silica nano...
Crucial to effective optical trapping is the ability to precisely control the nature of force/potent...
Plasmonic nanoparticles, typically gold and silver colloids, can be trapped by a highly focused Gaus...
The invention of the laser in 1960 opened the door for a myriad of studies on the interactions betwe...
We present a comparison of optical trapping of 50-nm-sized silica nanospheres, suspended in water me...
We theoretically investigate the opto-mechanical interactions between a dielectric nanoparticle and ...
In this article the gradient force of optical trap using two counter-propagating pulsed Gaussian bea...
This thesis reports exploratory research on new optical and chemical phenomena of molecular, metal a...
Optical trapping is an established field for movement of micron-size objects and cells. However, tra...
Optical tweezers have paved the way towards the manipulation of particles and living cells at the mi...
doi:10.3791/4424 (2013). Optical trapping is a technique for immobilizing and manipulating small obj...
We investigate the effects of pulse duration on optical trapping with high repetition rate ultrashor...
Optical trapping using focused laser beams (laser tweezers) has been proven to be extremely useful f...
International audienceOptical tweezers have paved the way towards the manipulation of particles and ...