Add to ORKGWe demonstrate how light force, irrespective of the polarization of the light, can be used to run a simple nanorotor. While the gradient force of a single beam optical trap is used to hold an asymmetric nanorod, we utilize the scattering force to generate a torque on the nanorod, making it rotate about the optic axis. The inherent textural irregularities or morphological asymmetries of the nanorods give rise to the torque under the radiation pressure. Even a small surface irregularity with non-zero chirality is sufficient to produce enough torque for moderate rotational speed. Different sized rotors can be used to set the speed of rotation over a wide range with fine tuning possible through the variation of the laser power. We present a sim...
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...
The key information about any nanoscale system relates to the orientations and conformations of its ...
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 ...
We show that asymmetric nanorods rotate under the laser radiation pressure, irrespective of the pola...
We show that asymmetric nanorods rotate under the laser radiation pressure, irrespective of the pola...
The possibility to generate and measure rotation and torque at the nanoscale is of fundamental inter...
Efficient and robust artificial nanomotors could provide a variety of exciting possibilities for app...
Optically levitated nano-objects in vacuum are among the highest quality mechanical oscillators, and...
Optical manipulation at the micro- nano-scale is a fascinating topic due to its inherent non-invasiv...
also known as the light-mill, in 1873, it was believed that this device confirmed the existence of l...
Colloidal metal nanocrystals exhibit distinct plasmonic resonances that can greatly enhance optical ...
The objective of this research is to manufacture and investigate the characteristics and use of asym...
Shaping the topology of light, by way of spin or orbital angular momentum engineering, is a powerful...
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...
The key information about any nanoscale system relates to the orientations and conformations of its ...
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 ...
We show that asymmetric nanorods rotate under the laser radiation pressure, irrespective of the pola...
We show that asymmetric nanorods rotate under the laser radiation pressure, irrespective of the pola...
The possibility to generate and measure rotation and torque at the nanoscale is of fundamental inter...
Efficient and robust artificial nanomotors could provide a variety of exciting possibilities for app...
Optically levitated nano-objects in vacuum are among the highest quality mechanical oscillators, and...
Optical manipulation at the micro- nano-scale is a fascinating topic due to its inherent non-invasiv...
also known as the light-mill, in 1873, it was believed that this device confirmed the existence of l...
Colloidal metal nanocrystals exhibit distinct plasmonic resonances that can greatly enhance optical ...
The objective of this research is to manufacture and investigate the characteristics and use of asym...
Shaping the topology of light, by way of spin or orbital angular momentum engineering, is a powerful...
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...
The key information about any nanoscale system relates to the orientations and conformations of its ...