Addendum to the Temporal Spreading (TS) Model

This document expands upon the foundational work on the Temporal Spreading of Particles (TS) and applies the concept to solve key questions in modern physics. The TS model moves away from treating time as a zero-point parameter in quantum equations, instead defining it as a real temporal interval in which a particle exists. Key Highlights: Subatomic Anomalies: Explaining deviations in particle arrival times (e.g., neutrinos) as a natural consequence of their "temporal thickness." Nature of Antimatter: Defining antimatter through phase-inverted internal vibrations, reinterpreting annihilation as mechanical destructive interference. Gravity as Temporal Damping: Interpreting gravity as a byproduct of temporal synchronization, explaining mass behavior even in extreme conditions like black holes. Reinterpretation of the Wave Function: Shifting from abstract probability to a real mechanical record of a particle's existence in time. Objective: The goal of this document is to demonstrate that returning to mechanical logic and accepting time as a full geometric dimension with its own extent eliminates the need for quantum paradoxes and unifies our understanding of the micro and macro worlds.