Add to ORKGWe show that asymmetric nanorods rotate under the laser radiation pressure, irrespective of the polarization of the light, when trapped in laser tweezers. If a nanorod is not quite transparent to the trapping laser radiation, the radiation pressure force generates a non zero torque on the asymmetric nanorods making them rotate at a moderate speed. Our experimental observations on radiation pressure driven rotations of MgO and Si nanorods in optical trap show that the efficiency of the rotors depends directly on their transmittance at the trapping wavelength. We propose theoretical models to estimate the rotational speed at different laser powers for a rotor with shape asymmetries or surface irregularities
also known as the light-mill, in 1873, it was believed that this device confirmed the existence of l...
Funding: UK EPSRC under the Programme Grant EP/P030017/1.The fastest-spinning man-made object is a t...
Nanomechanical devices have attracted the interest of a growing interdisciplinary research community...
We show that asymmetric nanorods rotate under the laser radiation pressure, irrespective of the pola...
We demonstrate how light force, irrespective of the polarization of the light, can be used to run a ...
We demonstrate how light force, irrespective of the polarization of the light, can be used to run a ...
Optically levitated nano-objects in vacuum are among the highest quality mechanical oscillators, and...
The possibility to generate and measure rotation and torque at the nanoscale is of fundamental inter...
Colloidal metal nanocrystals exhibit distinct plasmonic resonances that can greatly enhance optical ...
Efficient and robust artificial nanomotors could provide a variety of exciting possibilities for app...
International audienceWe study the rotational motion of objects trapped in a focused laser beam (opt...
Gold nanorods can be optically trapped in aqueous solution and forced to rotate at kilohertz rates b...
Controlling the position and movement of small objects with light is an appealing way to manipulate ...
We outline in general the role and potential areas of application for the use of optical torque in o...
Controlling the position and movement of small objects with light is an appealing way to manipulate ...
also known as the light-mill, in 1873, it was believed that this device confirmed the existence of l...
Funding: UK EPSRC under the Programme Grant EP/P030017/1.The fastest-spinning man-made object is a t...
Nanomechanical devices have attracted the interest of a growing interdisciplinary research community...
We show that asymmetric nanorods rotate under the laser radiation pressure, irrespective of the pola...
We demonstrate how light force, irrespective of the polarization of the light, can be used to run a ...
We demonstrate how light force, irrespective of the polarization of the light, can be used to run a ...
Optically levitated nano-objects in vacuum are among the highest quality mechanical oscillators, and...
The possibility to generate and measure rotation and torque at the nanoscale is of fundamental inter...
Colloidal metal nanocrystals exhibit distinct plasmonic resonances that can greatly enhance optical ...
Efficient and robust artificial nanomotors could provide a variety of exciting possibilities for app...
International audienceWe study the rotational motion of objects trapped in a focused laser beam (opt...
Gold nanorods can be optically trapped in aqueous solution and forced to rotate at kilohertz rates b...
Controlling the position and movement of small objects with light is an appealing way to manipulate ...
We outline in general the role and potential areas of application for the use of optical torque in o...
Controlling the position and movement of small objects with light is an appealing way to manipulate ...
also known as the light-mill, in 1873, it was believed that this device confirmed the existence of l...
Funding: UK EPSRC under the Programme Grant EP/P030017/1.The fastest-spinning man-made object is a t...
Nanomechanical devices have attracted the interest of a growing interdisciplinary research community...