The Manifestation Time: Universality, Bounds, and Physical Implications in the ITC Framework

In the Instantaneous Teleportation Cosmos (ITC) framework, the manifestation time τ is a fundamental parameter of the basal structure that governs the projection of basal information into emergent spacetime. This paper establishes two essential results concerning τ. First, we present a rigorous proof of the universality of τ: based on the identity of basal nodes and the existence of absolute time, the minimum manifestation time is shown to be identical for all spatial points. This universality is a key premise for the emergent constancy of the speed of light. Second, we derive the theoretical and experimental bounds on τ. The theoretical lower bound is set by the Planck time (t_P≈ 5.39×10⁻⁴⁴ s), while the most stringent experimental upper bound comes from the Z boson lifetime (t_Z≈2.6×10⁻²⁵ s). The allowed range spans 19 orders of magnitude, and we clarify the relationship between microscopic discreteness and macroscopic continuity of spacetime within the ITC framework. Together, these results provide a quantitative foundation for the manifestation time and outline concrete pathways for its further constraint through particle physics experiments and astrophysical observations.