Add to ORKGOptical tweezers can be used to trap, move, and rotate or align microscopic particles. Elongated particles are ideal candidates for alignment and controlled rotation; the behaviour of microfibres within an optical trap is investigated
The ability to controllably rotate, align, or freely spin microparticles in optical tweezers greatly...
We outline in general the role and potential areas of application for the use of optical torque in o...
To explain fundamental processes in molecular and cell biology a detailed description of the interac...
Optical tweezers can be used to trap, move, and rotate or align microscopic particles. Elongated par...
Optical trapping and micromanipulation has developed from an interesting novelty to a powerful and w...
An optical tweezers technique is used for ultraprecise micromanipulation to measure positions of mic...
Optical tweezers, formed by a highly focused laser beam, have intriguing applications in biology and...
Manipulation with microscopic objects facilitated deeper understanding of the light-matter interact...
It has been recognised that the ability to controllably rotate and orient optically trapped micropar...
We describe a novel method by which it is possible to apply and measure torque directly on particles...
We show that dual line optical tweezers provides a convenient and dynamically reconfigurable approac...
Several methods to rotate and align microscopic particles controllably have been developed. Control ...
Laser tweezers, often known as optical tweezers or optical traps, permit the capturing and micromani...
We demonstrate optical trapping and rotation of microparticles and bacteria with propelling beams. T...
In existing control techniques for optical tweezers, a target particle is directly trapped and manip...
The ability to controllably rotate, align, or freely spin microparticles in optical tweezers greatly...
We outline in general the role and potential areas of application for the use of optical torque in o...
To explain fundamental processes in molecular and cell biology a detailed description of the interac...
Optical tweezers can be used to trap, move, and rotate or align microscopic particles. Elongated par...
Optical trapping and micromanipulation has developed from an interesting novelty to a powerful and w...
An optical tweezers technique is used for ultraprecise micromanipulation to measure positions of mic...
Optical tweezers, formed by a highly focused laser beam, have intriguing applications in biology and...
Manipulation with microscopic objects facilitated deeper understanding of the light-matter interact...
It has been recognised that the ability to controllably rotate and orient optically trapped micropar...
We describe a novel method by which it is possible to apply and measure torque directly on particles...
We show that dual line optical tweezers provides a convenient and dynamically reconfigurable approac...
Several methods to rotate and align microscopic particles controllably have been developed. Control ...
Laser tweezers, often known as optical tweezers or optical traps, permit the capturing and micromani...
We demonstrate optical trapping and rotation of microparticles and bacteria with propelling beams. T...
In existing control techniques for optical tweezers, a target particle is directly trapped and manip...
The ability to controllably rotate, align, or freely spin microparticles in optical tweezers greatly...
We outline in general the role and potential areas of application for the use of optical torque in o...
To explain fundamental processes in molecular and cell biology a detailed description of the interac...