Add to ORKGWe investigate the focusing properties of a femtosecond vortex light pulse focused by a high numerical aperture objective. By using the Richards-Wolf vectorial diffraction method, the intensity distribution, the velocity variation and the orbital angular momentum near the focus are studied in great detail. We have discovered that the femtosecond vortex light pulse can travel at various speeds, that is, slower or faster than light with a tight focusing system. Moreover, we have found that the numerical aperture of the focusing objective and the duration of the vortex light pulse will influence the orbital angular momentum distribution in the focused field
Spatiotemporal optical vortices (STOVs) have attracted numerous attention from researchers in recent...
Some light beams rotate as they propagate. If it is not the polarization vector, but the phase struc...
Abstract: Numerous approaches have been developed to generate optical vortex beams carrying orbital ...
Focusing of a femtosecond vortex light pulse through a high numerical aperture objectiv
The tight focusing of femtosecond radially polarized vortex laser pulse by a high numerical aperture...
We analyze formation of multifocus structure during the propagation of optical vortex with topologic...
We investigate the tight focusing properties of partially coherent and radially polarized vortex bea...
The focusing property of a focal spot of a femtosecond laser pulse is presented under tight focusing...
Tight focusing of radially polarized beams with a devil’s vortex lens is numerically investigated. M...
The transverse focal shift (TFS) is a phenomenon that the maximum of a focused field does not occur ...
The interplay between the frequency chirping of a broadband laser pulse and the longitudinal chromat...
We report the first experimental observation of vortex light bullets that are discrete, spatiotempor...
We report the first experimental observation of vortex light bullets that are discrete, spatiotempor...
The spatiotemporal vector Airy-Circular Airy Gaussian vortex wave packet is constructed by solving t...
We measure the charge of vortex beams (up to ± 7) via diffraction in a triangular aperture. We also ...
Spatiotemporal optical vortices (STOVs) have attracted numerous attention from researchers in recent...
Some light beams rotate as they propagate. If it is not the polarization vector, but the phase struc...
Abstract: Numerous approaches have been developed to generate optical vortex beams carrying orbital ...
Focusing of a femtosecond vortex light pulse through a high numerical aperture objectiv
The tight focusing of femtosecond radially polarized vortex laser pulse by a high numerical aperture...
We analyze formation of multifocus structure during the propagation of optical vortex with topologic...
We investigate the tight focusing properties of partially coherent and radially polarized vortex bea...
The focusing property of a focal spot of a femtosecond laser pulse is presented under tight focusing...
Tight focusing of radially polarized beams with a devil’s vortex lens is numerically investigated. M...
The transverse focal shift (TFS) is a phenomenon that the maximum of a focused field does not occur ...
The interplay between the frequency chirping of a broadband laser pulse and the longitudinal chromat...
We report the first experimental observation of vortex light bullets that are discrete, spatiotempor...
We report the first experimental observation of vortex light bullets that are discrete, spatiotempor...
The spatiotemporal vector Airy-Circular Airy Gaussian vortex wave packet is constructed by solving t...
We measure the charge of vortex beams (up to ± 7) via diffraction in a triangular aperture. We also ...
Spatiotemporal optical vortices (STOVs) have attracted numerous attention from researchers in recent...
Some light beams rotate as they propagate. If it is not the polarization vector, but the phase struc...
Abstract: Numerous approaches have been developed to generate optical vortex beams carrying orbital ...