2. The Intermediate S-T Regions: 2 Worlds: Gravitation And Light

The Non-AE Universe has an ‘energetic, electromagnetic network’ of radiant matter similar to the blood network of a living organism, which weights only a 4% and reaches its maximum density in the external membrane and the filaments of stars, (center). And it has an informative, gravitational network similar to a nervous network, which reaches its maximum density in the hypothetical hyper-black hole, brain or central singularity of that Universe, the Great Attractor and weights a 21%. Both feed on the intermediate space-time region of gravitational space-time (dark energy).
The closest homology of the 2 dual networks of the Universe is with an atom in which the central nucleon with max. density of gravitational information and the external electronic membrane interact in a middle space-time vacuum through gravitational forces and electromagnetic photons. In fact, the proportions of gravitational space-time and matter are similar to those of any trophic pyramid, proving that the Universe is an organic system in which the simplest, quantic space-time, gravitation, feeds light and matter.
How it is possible super luminal gravitation, without contradicting Einstein’s Postulate of light speed as the limit of speed of our Universe? It is not possible in a continuous single space-time Universe but it is self-evident in a quantic Universe with many worlds. Since then light becomes indeed the limit of speed of our World, but in a quantic reality, there are other discontinuous space-time systems, separated from us through membranes and discontinuities with whom we hardly communicate. In the case of the light and gravitational world those discontinuities are the masses and black hole singularities that appear to us as ‘points with no volume’ in the border between both worlds. Thus we consider super luminal gravitation and light the 2 forces that interact in the Universe at large, which as any other Non AE point should possess 2 networks/forces: the informative, faster gravitational force that structures the Universe as a spatial Non AE point, very much in the way DNA organizes biological cells or the nervous system puts together organisms; and the electromagnetic force that acts as the ‘blood/energetic system’ of the Universe. Following the cellular or physiological homologies, the network of dark, informative matter and gravitational energy, connected to dark matter and black holes, surrounds and controls the network of dark energy. We know that it was formed first and then guided the creation of electromagnetic energy, so we can observe it indirectly (since it does not emit radiation), and deduce its form from the highly quantized shape of the filaments of light-galaxies that were formed around that dark matter in the youth of the Universe (right graph). Thus it acts in a similar way to the ARN that shapes and controls the Golgi membranes of the cell or the nervous system that guides and builds the morphology of the body. Thus the network of stars and electromagnetic, slower energy that produces the substances of galaxies, surrounds those strands of dark matter. In the cell’s homology ribosomes that create most products of the cell are pegged to those cell membranes. But how can co-exist both world together? In continuous space-time they can’t but in discontinuous space-time where a ‘dimension’ is quantic, hence it is a network, it is rather easy. Imagine the light Universe as a ‘web’, like a fishnet floating of an immense sea of gravitational energy. Each knot is a charge, a Fractal Organism that communicates the strings of the net (the electromagnetic forces), leaving a huge ‘dark’ space-time of ‘water’, that 96% of gravitational dark energy, which is not ‘illuminated’ neither interacts with the quantic net. Physicists describe quantic space-time in that way, calling the fishnet a ‘brane’ made with cyclical, temporal knots (spins or closed strings) that in its lineal, energetic state create forces that tight together those knots. Yet to understand those dark spaces we have to go a step further in our inquire.