Abstract
Our world is a quantum and discontinuous world and any phenomena that look classical are approximate or derived. All macroscopic properties of a classical system are direct consequences of the quantum behavior of its parts. The finite Universe has an impenetrable edge in form of the virtual, ubiquitous holes which prevent classical motion at small scales and cause quantum behavior: the particles must "jump" over holes continually and it is a cause of quantum behavior. Since the holes are very small, therefore microscopic particles behave differently than classical macroscopic objects. If we increased the size of the holes, we would be able to convert any macroscopic body into a quantum object with long de Broglie wavelength. All quantum mechanical phenomena are ultimately a consequence of existence of vacuum holes and quanta: the holes in spacetime can explain quantum behavior, nonlocality, entanglement, motion, uncertainty principle, teleportation, gravitation, inertia and so on. The probabilistic character of the quantum mechanics originates from a discontinuous, fluctuating spacetime with holes and intrinsic randomness of Hole Teleportation events. The Universe is composed of indivisible atoms, suspended in the void (holes). The reality is fundamentally quantum, discrete and discontinuous, and therefore digital, but looks classical to us as a result of smallness of the holes and decoherence.
Constantin Zaharia Leshan