▎ 摘　　要

NOVELTY - The magneto-optical light spin Hall effect experiment device comprises a metal graphene that is arranged below a prism. The metal graphene is obtained by periodically and alternately stacking the graphene layer and the metal layer. The substrate material of the metal graphene is provided with silicon dioxide. The linear polarization Gaussian beam is composed of a prism coupling the theta angle that is incident graphene with the metal heterojunction. The light spin hall effect is reflected on the graphene of a metal heterojunction. The light beam is split into left-handed circularly polarized light and right-handed cyclically polarized light. USE - Magneto-optical light spin Hall effect experiment device used under terahertz frequency. ADVANTAGE - The magneto-optical light spin Hall effect experiment device greatly enhances the asymmetric splitting of the left-handed circularly polarized light and the right-handed circularly polarized light to provide the possibility for enhancing the transverse displacement of the light spin Hall effect and effectively controlling and controlling under the terahertz magnetic field. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is included for a magneto-optical light spin Hall effect experiment method used under terahertz frequency. DESCRIPTION OF DRAWING(S) - The drawing shows an isometric view of the magneto-optical light spin Hall effect experiment device used under terahertz frequency.