📝 SummarXiv

Abstract

The generation of high-order harmonic beams carrying orbital angular momentum (OAM) promises application in diverse research fields. Recently, the perfect spatiotemporal optical vortex (PSTOV) beam has garnered much attention due to its topological charge (TC)-independent ring size and intensity distribution in the spatiotemporal plane. Here, we theoretically investigate the harmonic generation process in atomic gases driven PSTOV beams carrying transverse OAM. The unique spatiotemporal characteristics of the PSTOV beam make it an excellent candidate to generate harmonic beams with high TC values. We demonstrate that the conservation of transverse OAM is strictly followed when the harmonic generation is driven by the PSTOV beam. Additionally, in the near-field, the intensity distributions of harmonics show tilted lobed structures, which encapsulate information about the TC. By solving the Fraunhofer diffraction integral, we demonstrate that the generated harmonic vortices exhibit similar divergence properties at the far-field. Our research provides a unique route to create Bessel-Gauss spatiotemporal optical vortex beams with high TC in the extreme-ultraviolet (XUV) spectral regime.