A speculative conceptual framework is proposed in which three-dimensional space is hypothesized to emerge from a primordial higher-dimensional field through the generation of particle pairs and their unification by graviton membranes. In this framework, particles are interpreted as localized three-dimensional vibrational excitations, while gravitons are hypothesized to be vibrating two-dimensional circular membranes that connect particle pairs into a unified relational network.Three-dimensional space is proposed to arise when graviton-mediated connectivity exceeds a critical threshold. Black holes are interpreted not as endpoints of destruction but as reverse transitions through which emergent spatial structure collapses and matter, energy, and information return to the primordial higher-dimensional field.The framework further suggests that information is preserved within the higher-dimensional field and that multiple universes may emerge independently from different regions of the primordial domain. Within this interpretation, the Big Bang and black holes represent opposite directions of a common emergence–return process.
Motoji Tajima (Sun,) studied this question.