Skyrmion Generation through the Chirality Interplay of Light and Magnetism

Oral-Virtual  · Withdrawn

Abstract

Light beams, with their rich degrees of freedom, including polarization and phase, along with their flexible tunability, have emerged as an ideal tool for generating magnetic topological textures. However, precisely controlling the light beams to generate specific types and numbers of magnetic topological textures on demand remains a critical scientific challenge that must be addressed. Here, we propose that circularly polarized Laguerre-Gaussian beams can induce chiral magnetic fields through the interaction of the chirality of these beams’ angular momenta. By utilizing these chiral magnetic fields, and based on the numerical simulation of the Landau-Lifshitz-Gilbert equation, skyrmions or skyrmionium can be induced in chiral magnets. Moreover, the structured magnetic fields can be manipulated by adjusting the angular momenta and light intensity, enabling the generation of desired chiral patterns and strengths. This provides precise control over the type and quantity of these topological magnetic textures. Our work not only reveals the underlying physical mechanisms of the interaction between light and magnetic systems but also provides a feasible solution for the on-demand generation and encoding of skyrmions.

Publication: Zhang, Q., Lin, S. & Zhang, W. Skyrmion generation through the chirality interplay of light and magnetism. Commun Phys 9, 55 (2026). https://doi.org/10.1038/s42005-026-02488-9

Presenters

  • Shirong Lin

    • Great Bay University

Authors

  • Shirong Lin

    • Great Bay University
  • Qifan Zhang

  • Wu Zhang