If the experiments in this paper turn out to be true, it would mark one of the most profound shifts in science since Einstein showed that space and time bend. For over a century, we’ve accepted that quantum mechanics works—but not why it works. Entanglement has remained a riddle: particles separated by miles act as one, yet no signal passes between them. If these new experiments confirm that this mysterious connection happens across a hidden two-dimensional “membrane” linking our world to the void, then we’ll have found the physical machinery behind the magic. It would mean that the universe itself has structure beneath the equations—an invisible surface that breathes, flexes, and carries the resonant patterns we call particles.
The implications would ripple through every field. Quantum computing could move from trial-and-error engineering to precision design, with “entropy budgets” guiding how to keep qubits coherent. Physics textbooks would need a new foundation, one where measurement collapse isn’t an abstract postulate but a real thermodynamic event, space itself reaching its breaking point and snapping back. Even cosmology would take on new meaning: the void wouldn’t be empty at all, but the zero-entropy canvas from which everything arises.
For the general reader, imagine it this way: when you look at a star, you’re seeing vibrations on the surface of reality’s ocean. The VERSF framework suggests that beneath that ocean lies an infinite calm—the true void—and that every photon, every atom, every thought is a ripple dancing on that boundary. Proving that would change not just our science, but our sense of place in the cosmos. It would be the moment we finally see what space itself is made of.