Add to ORKGConical refraction occurs when a beam of light travels through an appropriately cut biaxial crystal. By focussing the conically refracted beam through a high numerical aperture microscope objective, conical refraction optical tweezers can be created, allowing for particle manipulation in both Raman spots and in the Lloyd/Poggendorff rings. We present a thorough quantification of the trapping properties of such a beam, focussing on the trap stiffness and how this varies with trap power and trapped particle location. We show that the lower Raman spot can be thought of as a single-beam optical gradient force trap, while radiation pressure dominates in the upper Raman spot, leading to optical levitation rather than trapping. Particles in the Ll...
Optical tweezers is a classical optics tool for manipulating small dielectric objects which can be u...
Mechanical forces play an important role in the behaviour of cells, from differentiation to migratio...
In 1832 Hamilton predicted that a collimated light beam propagating through a biaxial crystal parall...
Conical refraction occurs when a beam of light travels through an appropriately cut biaxial crystal....
With a tightly focused single laser beam, also called optical tweezers, particles of a few nanometer...
For optical tweezers, a tiny focal spot of the trapping beam is necessary for providing sufficient i...
<div><p>Advances in light shaping techniques are leading to new tools for optical trapping and micro...
We show how the trapping position of an optically trapped 1-µm polystyrene bead is measured, and tha...
Optical tweezers can trap micron-sized objects such as cells, bacteria, and microspheres, and has be...
Optical traps (tweezers) are beginning to be used with increasing efficacy in diverse studies in the...
Advances in light shaping techniques are leading to new tools for optical trapping and micromanipula...
AbstractOptical tweezers have revolutionized our understanding of the microscopic world. Axial optic...
Optical traps (tweezers) are beginning to be used with increasing efficacy in diverse studies in the...
We outline in general the role and potential areas of application for the use of optical torque in o...
Optical tweezers(1) are commonly used for manipulating microscopic particles, with applications in c...
Optical tweezers is a classical optics tool for manipulating small dielectric objects which can be u...
Mechanical forces play an important role in the behaviour of cells, from differentiation to migratio...
In 1832 Hamilton predicted that a collimated light beam propagating through a biaxial crystal parall...
Conical refraction occurs when a beam of light travels through an appropriately cut biaxial crystal....
With a tightly focused single laser beam, also called optical tweezers, particles of a few nanometer...
For optical tweezers, a tiny focal spot of the trapping beam is necessary for providing sufficient i...
<div><p>Advances in light shaping techniques are leading to new tools for optical trapping and micro...
We show how the trapping position of an optically trapped 1-µm polystyrene bead is measured, and tha...
Optical tweezers can trap micron-sized objects such as cells, bacteria, and microspheres, and has be...
Optical traps (tweezers) are beginning to be used with increasing efficacy in diverse studies in the...
Advances in light shaping techniques are leading to new tools for optical trapping and micromanipula...
AbstractOptical tweezers have revolutionized our understanding of the microscopic world. Axial optic...
Optical traps (tweezers) are beginning to be used with increasing efficacy in diverse studies in the...
We outline in general the role and potential areas of application for the use of optical torque in o...
Optical tweezers(1) are commonly used for manipulating microscopic particles, with applications in c...
Optical tweezers is a classical optics tool for manipulating small dielectric objects which can be u...
Mechanical forces play an important role in the behaviour of cells, from differentiation to migratio...
In 1832 Hamilton predicted that a collimated light beam propagating through a biaxial crystal parall...