Add to ORKGWe demonstrate that the axial trapping efficiency in optical tweezers is improved by using a Laguerre-Gaussian laser mode as the trapping beam. For a wide range of particle sizes and sample cell depths, the laser power required with an l = 3 Laguerre-Gaussian mode is reduced by a factor of two compared with that of the fundamental mode. This is important for biological applications where a reduction in the laser power lessens the risk of damage to living samples.</p
The aim of this work is to investigate the usefulness of the Laguerre-Gaussian (LG) beams, often ref...
In this work we investigate the features of single-ringed Laguerre-Gaussian (LG) beams, often referr...
It is now well known that matter may be trapped by optical fields with high intensity gradients. Onc...
We demonstrate that the axial trapping efficiency in optical tweezers is improved by using a Laguerr...
We demonstrate that the axial trapping efficiency in optical tweezers is improved by using a Laguerr...
Within inverted optical tweezers we measure both the lateral and axial trapping efficiency obtained ...
We show that the axial spread of the focal volume of a tightly focused beam propagating through a gl...
We numerically model the axial trapping forces within optical tweezers arising from Laguerre-Gaussia...
AbstractOptical tweezers have revolutionized our understanding of the microscopic world. Axial optic...
Recently our group demonstrated the ability to trap bacteria using optical tweezers, but low laser p...
Optical traps (tweezers) are beginning to be used with increasing efficacy in diverse studies in the...
We report results of a study on the use of Laguerre-Gaussian (LG) modes for optical trapping of sper...
Optical traps (tweezers) are beginning to be used with increasing efficacy in diverse studies in the...
Optical tweezers is a new technique for research in biological and physical sciences by using the ra...
Optical tweezers are an important tool in the field of biophysics due to their ability to precisely ...
The aim of this work is to investigate the usefulness of the Laguerre-Gaussian (LG) beams, often ref...
In this work we investigate the features of single-ringed Laguerre-Gaussian (LG) beams, often referr...
It is now well known that matter may be trapped by optical fields with high intensity gradients. Onc...
We demonstrate that the axial trapping efficiency in optical tweezers is improved by using a Laguerr...
We demonstrate that the axial trapping efficiency in optical tweezers is improved by using a Laguerr...
Within inverted optical tweezers we measure both the lateral and axial trapping efficiency obtained ...
We show that the axial spread of the focal volume of a tightly focused beam propagating through a gl...
We numerically model the axial trapping forces within optical tweezers arising from Laguerre-Gaussia...
AbstractOptical tweezers have revolutionized our understanding of the microscopic world. Axial optic...
Recently our group demonstrated the ability to trap bacteria using optical tweezers, but low laser p...
Optical traps (tweezers) are beginning to be used with increasing efficacy in diverse studies in the...
We report results of a study on the use of Laguerre-Gaussian (LG) modes for optical trapping of sper...
Optical traps (tweezers) are beginning to be used with increasing efficacy in diverse studies in the...
Optical tweezers is a new technique for research in biological and physical sciences by using the ra...
Optical tweezers are an important tool in the field of biophysics due to their ability to precisely ...
The aim of this work is to investigate the usefulness of the Laguerre-Gaussian (LG) beams, often ref...
In this work we investigate the features of single-ringed Laguerre-Gaussian (LG) beams, often referr...
It is now well known that matter may be trapped by optical fields with high intensity gradients. Onc...