In this work, we propose a unified framework that models spacetime as a continuous fabric of interconnected superstrings. In this formulation, an elementaryparticle is represented as a wave propagating through the fabric, rotating arounda central axis and inducing a localized torsion of spacetime. The propagationalong the axis accounts for linear momentum, the rotation around the axis generates intrinsic spin, the oscillation frequency determines mass–energy, and thetorsional excitation gives rise to electric charge. This framework naturally reproduces the Schr¨odinger, Klein–Gordon, and Dirac equations, while also recoveringthe effective structure of Maxwell’s theory. Moreover, it predicts a modified formof Einstein’s field equations that consistently incorporates quantum properties ofmatter. In this way, the model provides a clear geometric–wave description thatbridges general relativity and quantum mechanics. We provide experimental support through Fourier analysis of proton–protoncollision data at √s = 13 TeV, using ATLAS measurements of inclusiveisolated-photon and photon+jet production. The analysis reveals periodic oscillations in the η distributions, consistent with the predicted wave-like modulationsof particles in the proposed superstring-fabric spacetime. These findings offerboth theoretical and empirical evidence for a unified wave–geometric descriptionof matter and fields. Version 2: Added section (9) on the Higgs boson interpretation within the Wave–Fabric framework and minor corrections to formatting. Version 3: Fundamental action added in this version. Related Works (Superstring–Fabric Spacetime (SFS) Program): Extended quantum–geometric framework (SFS Model): https: //doi. org/10. 5281/zenodo. 17864031 Geometric origin of electromagnetism (SFS Model): https: //doi. org/10. 5281/zenodo. 18182324 Geometric Origin of the Strong Nuclear Force (SFS Model): https: //doi. org/10. 5281/zenodo. 18498802 Geometric Interpretation of Low-Energy Nuclear Fusion in (SFS Model): https: //doi. org/10. 5281/zenodo. 18384888 Black Hole Formation and Structure (SFS Model): https: //doi. org/10. 5281/zenodo. 17624334 A preliminary alternative version of this work is available on SSRN: https: //papers. ssrn. com/sol3/papers. cfm? abstractᵢd=5654670
Karrar Shuhaib (Sat,) studied this question.