Due to the absence of rigorous mathematical modeling and extensive experimental validation, the applications of torsion fields—such as zero-point energy extraction and therapeutic functionalities—remain in the hypothetical stage. Currently, the mainstream physics community has not recognized torsion field as a fundamental force, and research in this domain continues to reside within the realm of fringe science. Building upon the precise modeling of the vacuum scalar wave equations and particle propagation mode, we derived a theoretical framework for the generation of artificial torsion fields and gravitational field via vacuum scalar wave vortex electromagnetic fields, thereby elucidating the intrinsic correlation between these two field phenomena. Additionally, we conducted preliminary experiments to qualitatively verify the directional characteristics of artificial torsion and gravitational fields induced by vortex electromagnetic fields. Our study further provides profound insights into the fundamental nature of torsion and gravitational fields: the torsion field is an acceleration field associated with the tangential rotational motion of local space, whereas the gravitational field is an acceleration field corresponding to the radial curvilinear motion of local space.

Quantum electrodynamics, torsion field, gravitational field, scalar wave, unified field equation.