Litong Xu scite author profile

We demonstrate numerically and experimentally the generation of powerful supercontinuum vortices from femtosecond vortex beams by using multiple thin fused silica plates. The supercontinuum vortices are shown to preserve the vortex phase profile of the initial beam for spectral components ranging from 500 nm to 1200 nm. The transfer of the vortex phase profile results from the inhibition of multiple filamentation and the preservation of the vortex ring with relatively uniform intensity distribution by means of the thin-plate scheme, where the supercontinuum is mainly generated from the self-phase modulation and self-steepening effects. Our scheme works for vortex beams with different topological charges, which provides a simple and effective method to generate supercontinuum vortices with high power.

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Elongation of filamentation and enhancement of supercontinuum generation by a preformed air density hole

Chang

et al. 2022

Opt. Express

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The filamentation of the femtosecond laser pulse in air with a preformed density hole is studied numerically. The result shows that density-hole-induced defocusing effect can relieve the self-focusing of the pulse, and by changing the length of the density hole and relative delay time, the filamentation length, intensity, spectral energy density and broaden region can be effectively controlled. When a short density hole with millisecond delay time is introduced, a significant elongation of the filamentation and enhancement of supercontinuum intensity can be obtained. This study provides a new method to control filamentation by pulse sequence.

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Few-cycle vortex beam generated from self-compression of midinfrared femtosecond vortices in thin plates

Chang

et al. 2022

Phys. Rev. A

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Litong Xu

Helical filaments array generated by femtosecond vortex beams with lens array in air

Powerful supercontinuum vortices generated by femtosecond vortex beams with thin plates

Elongation of filamentation and enhancement of supercontinuum generation by a preformed air density hole

Few-cycle vortex beam generated from self-compression of midinfrared femtosecond vortices in thin plates

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