▎ 摘　　要

NOVELTY - The method involves constructing a three-dimensional coordinate system graphene spherical nanoparticles as the origin. The right-handed circularly polarized light is used to irradiate the spherical graphene nanoparticles. The incident intensity of the right-hand circularly-polarized light is adjusted according to the linear and nonlinear normalized scattering efficiency function in a quasi-static condition. The resonance interval of the graphene nanoparticle is obtained according to a scattering efficiency spectrum to obtain a bistable image of the incident electric field and the internal electric field under the quasi static condition. A near-field circular polarization graph is obtained. The mutual effect of the spin orbit is determined based on the near field circular polarized graph, and judging the mutual effect of the spin orbit according to the near-field circular polarization graph. USE - Method for adjusting interaction of light spin track. Uses include but are not limited to a field control application, optical micro-processing application, an optical micro-manipulation application and an optical information transmission application. ADVANTAGE - The method: provides convenient method for flexibly adjusting the interaction of the light spin tracks. The method for adjusting light spin track interaction in the prior art is complex, the flexibility is not high enough. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is also included for an adjusting system for interaction of light spin tracks. DESCRIPTION OF DRAWING(S) - The drawing shows a flowchart illustrating the method for adjusting interaction of light spin track (Drawing includes non-English language text).