This work proposes a cosmological model in which multiple Big Bangs occur asynchronously across a higher‑order temporal structure. Instead of a single universal origin, the model introduces a temporal‑hierarchy framework where distinct regions of spacetime emerge from independent quantum‑initiated expansion events. These events are not simultaneous in any global sense but unfold within a layered temporal architecture that replaces the classical notion of a single cosmic timeline. The result is a multiverse in which causality, expansion, and cosmic evolution depend on each region’s local temporal frame rather than a universal clock. The paper outlines the theoretical basis for asynchronous cosmic origins, examines the implications for homogeneity, cosmic inflation, and large‑scale structure, and argues that this framework resolves several conceptual tensions in standard cosmology.
Mehmet Veysi Omay (Fri,) studied this question.