Quantum Relativistic Framework.

This paper presents a symmetric approach to space and time, formulated through the velocity relationship vs^2 + vt^2 = c^2, where (vs) and (vt) represent spatial and temporal velocities, respectively. This framework suggests that all matter consists of photons oscillating in time rather than space, leading to a novel interpretation of mass and energy. A photon, traditionally understood as electromagnetic radiation, is redefined as a localized fluctuation in the space-time junction, propagating only through space. In contrast, massive particles exhibit oscillatory motion in the temporal dimension, rendering them stationary in space relative to their own rest frame.By extending wave mechanics to a complex standing wave function, Ψ(x, t) = Ψs(x, t) + iΨt(x,t) , where spatial and temporal wave functions are orthogonal, we establish a foundation for fundamental forces. Gravity emerges naturally from wave localization effects, obeying an inverse-square law, while charge interactions arise from phase shifts at the space-time junction. Opposite phase shifts neutralize, leading to attraction, whereas identical phase shifts reinforce energy states, resulting in repulsion. By formulating the wave equations governing both spatial and temporal oscillations, this theory provides a new perspective on the unification of relativity and quantum mechanics, offering potential avenues for further mathematical and experimental exploration.