Dimensionless Fractals and the Emergent Universe: A Path to Unifying Quantum and Relativity

I propose that space, time, and even “particles” may be emergent phenomena arising from a deeper, dimensionless fractal-like substrate. This substrate is capable of encoding both quantum and relativistic phenomena within a single, universal Hilbert space. By integrating ideas from fractional quantum gravity, loop quantum gravity spin networks, holography, and emergent gravity—augmented with a fractal perspective that emphasizes scale invariance—this framework suggests the universe may exist as one grand superposition. In this vision, "collapse" is reinterpreted as a local vantage projection on a fractal lattice of possibilities, rather than a literal universal event. To test these ideas, I outline how classical and quantum AI could analyze data from the cosmic microwave background (CMB), large-scale structure (LSS), gravitational waves, and quantum interference experiments for fractal or scale-invariant signatures spanning both microscopic and cosmic domains. If validated, this approach could unify quantum wavefunctions and spacetime curvature under a single principle. This preprint invites feedback, collaboration, and theoretical development to refine this speculative framework and explore its implications for quantum mechanics, relativity, and emergent geometry.