Spacetime as Emergent: Three Testable Predictions from the ITC Framework

The nearly century-long tension between quantum nonlocality and relativistic local causality suggests a fundamental misconception in our understanding of the nature of spacetime. The Instantaneous Teleportation Cosmos (ITC) framework proposed in this paper takes “zero‑latency transmission between any two points in the universe” as its first principle, redefining spacetime as a phenomenon emergent from the absolute basal structure. Within this framework, quantum entanglement is reinterpreted as the dual‑port manifestation of the same basal storage unit. The black hole information paradox is naturally resolved because information escapes instantly through zero‑latency teleportation channels or is encoded in Hawking radiation, and cosmological uniformity arises from the intrinsic thermal equilibrium of an instantaneously connected basal network. More importantly, the ITC framework translates into three testable predictions—a detectable probability shift ΔP≠0 in superluminal communication, the separability of write and guide errors in quantum teleportation, and non‑thermal radiation in early primordial black hole evaporation—all verifiable with current or near‑future facilities. These predictions cover phenomena across multiple scales, from the laboratory to the cosmic scale. Regardless of the outcome, these tests will provide key evidence for the fundamental question of whether spacetime is fundamental and guide physics beyond its century‑long conceptual impasse.