THE 2 WORLDS OF THE UNIVERSE: GRAVITATION AND LIGHT

 

3. Gravitation and light: the 2 worlds of the Universe and its limits.
The change of paradigm from a single continuous space-time with one entropy arrow to multiple, quantic, organic space-times with 2 arrows of energy and information modifies many assumptions about the Universe. The first of those assumptions, based on the Einsteinian postulate of continuity, affirms that light speed is the speed limit of the Universe. A fact, which contradicts the sheer evidence that gravitational forces are non-local, instantaneous. We already explained the super-luminal speed of gravitation as an example of a quantic jump towards the past, from the perspective of the emitter; since gravitation is produced by masses and black holes that show an inverse arrow of time respect to the electromagnetic forces of our world ..10-12).A prove of that process is the existence of a huge ‘present’ plane of gravitational space-time, which we see as the continuous Universe. Theoretically the continuous present cannot exist without a series of quantic jumps to the past of the ‘gravitational force’ that is the fabric of space-time and appears to us simultaneous. Yet that force has spent some time travelling to us. So how it is non-local, simultaneous? Because it is a palingenetic form that a mass ‘reproduces’ into the past. So when the force travels forwards to the region in which we are, the quantity of time spent moving from past to future is compensated by the previous quantic jump to the past, creating a relative simultaneous present space-time ..19-21).
Now we will prove it from the perspective of gravitation, the thinnest force of the Universe, since density of information and energetic speed are inverse, opposite functions. Indeed,according to the inversion between temporal information and spatial speed, the informative density, T/E, of any space/time field (particle or force) is inverse to its reproductive speed, E/T. Both are defined by homologous equations to those of classic physics, but substituting the AE-concepts by Non-AE cyclical, bidimensional time and space. So we write:

Di=Temporal form/Energy      V=E/T         VxDi=K      V=K/Di

In physical sciences density is the ratio between temporal mass and spatial volume. But in quantic space/time, informative density shows the ratio between the information of the being and its spatial energy. So it gives its relative density of form that increases with the temporal evolution or informative content of the wave; while inversely its reproductive speed diminishes. Because the reproduction of a wave with a lot of form requires the palingenetic drawing of a bigger number of informative cycles each quantic jump . For example, black holes are still. They don’t move in space and reproduce very slowly because they are very dense. In other systems, like a human organism, the same happens: its thinnest, informative, ‘gravitational’ axon networks move faster than its energetic  blood, ‘electromagnetic’ networks and yet, paradoxically the emitters of those nervous impulses, the densest informative cells, neurons, reproduce so slow as black holes do: they live and die the entire life of the organism. And inversely, we observe that forms with minimal information move faster as their reproductive drawing over the spatial energy of the vacuum is traced faster. So the fastest form we perceive at the atomic scale is light, which carries the minimal mass and draws its wave over gravitational space; then electrons and finally nucleons, the most massive and slower particles. But gravitation is even faster because we cannot see it. This means that gravitation is non-local, instantaneous, a relative infinite, because it carries no information; hence its speed is V=spatial energy/Temporal in-form-ation=E/0=∞. A fact with fundamental consequences in quantic space-time cosmology, since it implies that the entire Universe acts in terms of gravitation as a single organic system, in a relative present, joined by waves of dark, gravitational, spatial energy. Though we, slow light beings, see the information coming from far away regions of the Universe much latter, as if it were coming from a remote past; since light takes an eternity to arrive from the extremes of that universe.
Gravitation, dark matter and dark energy (expansive gravitation) form a more perfect world, as it happens with the fast nervous system of the body compared to the blood system. Yet, as the blood system will never go faster than blood but within the same organism we find faster nervous impulses, it is possible to go beyond light speed when we enter that ‘other system’.
There are many proves that cosmological gravitation is much faster than light speed: astronomers have discovered that black holes and quasars in the center of galaxies and the outskirts of the Universe, the theoretical borders between both systems, emit flows of matter that come out of black holes at least 10 times faster than light (right graph), dragged by dark energy flows. But matter is heavy and slows down the speed of dark energy. So probably gravitational waves coming out of black holes go even faster as nervous impulses move 10 to 100 times faster than blood waves. Further on, remote and close galaxies seem to interact in a homogeneous, simultaneous way, that cosmologists call ‘non-local’, to avoid changing the Einsteinian paradigm. So physicists prefer to explain those speeds with strange optical effects and scholastic arguments that remind us the complex Ptolemaic epicycles that tried to preserve the Earth at the center of the universe. Since we do have a quantic paradigm that perfectly explains superluminal speeds, we accept the overwhelming empirical proves of those speeds around black holes as certain.   
In Physical parameters the light-world of radiant, smaller atoms and its electromagnetic forces, ‘our Universe’, has Non-AE, ‘invisible’ limits of energy (C-speed) and information (0 Kelvin degrees of perfect atomic order) that radiant matter cannot cross.
What happens when a mass or a photon crosses those limits? It dies. As you die if you get too cold or too hot or you crash in a car at 100 km. Since any excess of energy and information destroy a quantic field of space-time made of less energetic and informative forms.
In Physics those death processes are expressed by 2 fundamental equations that now can be interpreted in quantic terms: E=M(t)c2, which explains how gravitational information uncoils into electromagnetic radiation and vice versa; and the Lorentz/Fitzgerald transformations, which show how the ‘organic constants’ of a particle, its spatial and temporal parameters that are in balance when the particle lives in our world (mathematically expressed in the so-called Lorentz and Minkowsky invariance) break apart when they die. In fact both, the Lorentz Invariance and the Principle of Conservation of Energy and Information, show how space-time existence in our Universe moves around a constant balance between energy and information. So they are the origin of most laws of conservation of energy and time in the Universe. In the left graph, we can see the effect of the Lorentz transformations: the balance between the energetic and informative elements/networks of any physical system suffer an overdrive of energy at C-speeds (or an excess of order at 0 Kelvin) and the system breaks the symbiosis and symmetry of its ‘informative, time particle’ and ‘spatial, body field’, expressed in its particle-wave duality, dying and splitting into pure energy and information. So the Lorentz transformations are a specific case of the equation of death ; in this case by an excess of spatial energy, max. Se=min.Ti, as the particle transforms its temporal parameters into energy, converting its time information into pure speed and exploding into gravitational and electromagnetic radiation. Which means obviously that the inner parts of light are made of thinner, gravitational quanta from the faster gravitational world, which light uses also to communicate .

4. The interaction between 2 worlds: The Death of light. The Doppler effect in quantic terms.
The interaction between both worlds happens according to the dual principle in the 2 extremes of its temporal and spatial forms: through black holes that ‘erase the information’ of our world, devolving it back to the ‘past’ in the form of gravitational energy and through light between the temperature of the background radiation and 0 Kelvin, when light ‘relaxes its form’ and dissolves back into its spatial components, ‘dying’ and expanding space.
  Though there are 3 limiting scales of mass in the Universe (the Planck scale, the atomic scale and the galactic scale), we humans perceive only 2 ‘interval forces’, since we are sandwiched as a Russian doll within that 3 scales structure. Again we can trace an homology with the sea life of the ocean, where the biggest scale of whales feed on the smallest scale of plankton, as the biggest black hole, cosmological world feeds on the smallest Planck scale of gravitons, the ‘Planckton’ of the gravitational sea. Yet in the middle, between those giant and smallish scales, there are ‘normal fishes’ that eat bigger molluscs and normal atomic humans that perceive more energetic light forces. So the light world is sandwiched within the other 2 scales of thinner forces and bigger masses:

i-1: Planckton < i=light-atomic world >i+1=Cosmological black holes.

 3 main theories, String Theory, quantic theory and gravitation, describe those 3 scales.
The inner parts of a quantic space-time field are made of quantic forms of a lower scale of temporal energy with lesser space and information. So the world of ‘light space-time’ is quantic light that feeds and reproduces its waves over thinner gravitational, dark energy. Since a wave is a reproductive process that repeats the in-form-ation of the wave on the energy-space in which the wave is drawn, transforming and compressing that energy into form with such velocity that its reproduction of form is perceived as speed. Thus in organic terms, a wave of light feeds and transforms, 'bends' gravitational space into electromagnetic waves.
So light has also a dual entropic arrow or life cycle: either it can absorb, evolve, inform, and contract gravitational space, eliminating space-distances; or it can emit, devolve, explode and expand its space into gravitational dark energy when light dies; a process that we perceive as the expansion of Universal space. So, as there are repulsive and expansive electromagnetic forces caused by bigger atomic particles that ‘swallow and contract’ or ‘emit and expand’ smaller quantic light-space in the process, there is implosive and expanding gravitation, called dark energy, as light either absorbs reproduces and contracts smaller gravitational quanta or emits it as energy, even dies, exploding into dark energy. In this final case, the symbols of the Lorentz equations that define the death of radiant matter and energy become negative, which in Quantic Spaces-Times theory means that light, when crossing the light speed barrier of our world, inverts its ‘existential, temporal direction’, from E=>T to T<=E, towards disorder, spatial energy and death.
In the next ‘scale of form’ between light and electrons the same dual arrow happens. For example, when a light wave comes closer to an electron of the ‘higher’ i-scale of information, it shortens its length and increases its formal frequency, before 'touching' the electron that absorbs it, imploding electro-magnetic space-time, which we feel as an ‘attraction’, and vice versa.
Yet from the ternary perspective of quantic space-time fixed space is also moving energy according to the Galileo’s paradox (‘e pur si muove, e pur no muove’), since ‘expanding distance’ is equivalent to ‘expanding speed’. So the expansion of light as it emits dark energy or even dies (organic perspective) can be also seen either as an expansion of vacuum (spatial, static perspective origin of the so-called cosmological red shift) or as growing speed of the gravitational space it emits (temporal, dynamic perspective). The maximal spatial expansion happens in fact when very old light coming from the extremes of the Universe die away in a big-bang, accelerated expansion, recently discovered ... Since death is indeed an accelerated process. So light that comes to us from far away distances will die, expanding gravitational space at an accelerated rate in the second half-part of its existential life-curve, as all decaying processes accelerate in the final ages of existence, during its third age and death, when light releases longer gravitational space at a growing rate. So the death of space-light into longer gravitational space is causing the perceived expansion of the Universe.
The ternary principle explains it from multiple perspectives: As light dies and becomes red, its space-time “dilates”, expands, because it devolves, becoming dark, gravitational Energy; which moves at a higher speed-distance than light, occupying more space. In dynamic, temporal terms we see those galaxies receding away from us at growing, temporal speed, because light creates and expands space between them and us. However, due to the continuity error, that process has been interpreted as a total expansion of the Universe. But light dies and expands space in a quantic manner, what limits that spatial expansion of light and creation of dark energy, which becomes also quantic, diffeomorphic, happening only in a local part of the total space, not in every part of the Universe. And this has clear implications in favour of an organic, dual Non-AE Universe:
- The Universe as a whole is probably a stable organic structure, because the quantic expansion of space/time caused by the death of quantic light into dark energy affects only a very small part of the universal organism and it is balanced by quantic gravitational vortices of mass, such as galaxies and black holes that wrinkle and contract space into matter, balancing the total form of the Universe. We are thus, probably in an Einsteinian Universe, in which the cosmological constant of dark energy or repulsive gravitation, he introduced to balance the implosive gravitational force, does exist. He considered a continuous constant (Einstein’s version) but now cosmologists consider it a quantic form of dark, expansive energy. That is why we also see galaxies that emit blue streams of light that contract space and finally end up creating flows of matter. Yet unlike long-distance red light, most of those blue flows happen at short distances, which in many cases obviously don’t arrive to us. Thus we tend to believe that all far away galaxies emit only red light. Though there must exist an equal number of red shifts and blue jets that expand and contract space-time and all together balance the Universe; since those dual bi-directional red/blue jets are in fact ubiquitous in nearby objects similar to black holes such as SS-433 or in baby born stars that we can see completely. Thus, space expands locally only when black holes emit dark Energy or light dies into expansive gravitational waves. The consequence is obvious: the Universe instead of accelerating its expansion, fluctuates as a bidimensional plane of energy in the relative ‘height’ dimension, as its quantic black holes, which are condensates of temporal mass, create diffeomorphic Quantic Spaces-Times fields of time that perpendicularly implodes and curves space into mass or explode it into dark energy. While in the other extreme of the cosmological scale light also expands space as it dies or emits gravitational energy, or curves it as it reproduces its form over the vacuum.
- Thus, most of the Universe is dark, gravitational, spatial energy, over which both light and matter feed. So we found recently that only 4% of intergalactic space/time is luminous, which coincides with our predictions for an ideal, discontinuous Non-AE point, in the case the electronic world of man, which perceives through its apertures only that 4% of the light world. Further on,  as in any trophic pyramid where victims are more numerous than predators radiant and dark matter account only for the 25% of reality. The rest is dark, gravitational energy in the same proportions of many trophic pyramids, and any relative Mendelian relationship between a recessive past and a dominant future form,  (25%-75%), as we predicted in the organic model.
- How long light lives? Since light originated at a distance between 8 and 13 billions years becomes red and then disappears into dark, gravitational space; that distance called the cosmological horizon because we do not see anything beyond, gives us a mean life-span of around 10 billion years. That is why during the final 5 billion years, light enters its 3rd age and cosmologists have found that the expansion of gravitational space accelerates.
Yet ±1010 years is also the mean life span of stars, the main organic form made of light, proving again the biological chain that exists between the existential cycles of organisms and its quanta . Since as a general rule that we can generalize to all hierarchical, cellular systems, any organic form lives the maximum life span of its cells. So you live the maximum life span of your neurons; the Universe probably lives the life span of a proton, since it is a nucleon organism. While stars live the mean life of light, which lives the maximum reach of the longest theoretical wavelength of gravitational energy, its inner quantic part, ±1010 light years, and so on.
This means that the cosmological horizon could be the limit of the Universe as an organism interrelated by a ‘nervous, simultaneous’ network of gravitation whose relative infinite speed creates the ‘present’ spatial Universe as a homogeneous organism. So the cosmological horizon is the spatial radius of the Universal cell and its external membrane, from where the background radiation comes that has a diameter of around 13 billion light years.

5. The new uncertainties of a quantic space-time Universe.
One of the difficulties of the quantic model of space-time finds is its higher number of uncertainties respect to the continuous models of the Universe. And yet, it is better to accept that we human beings are limited species and will always have uncertainties in our observation of the Universe than accepting simplistic, mechanic theories that seem absolutely rounded because of the multiple uncertainties it ignores. Since, when dealing with a Universe in which 96% of reality is not perceived, certainty is impossible.
The AE-scientist prefers a single solution to the facts of reality. Yet Non-AE logic requires always several perspectives and includes a degree of uncertainty proportional to the discontinuities and limits of our perception. All those uncertainties should humble the arrogance of dogmatic AE cosmology. In that sense the best description of the Non-AE Universe was given by a Nobel Prize of… Medicine and Physiology (the true science of sciences) that surely would have loved this book: ‘The Universe is not only stranger than we know but stranger than we can imagine’ Haldane.
Yet Non-AE-logic can stretch our imagination to understand that Universe. However the complete Quantic Spaces-Times cosmological model implies such a deep change in our perception of the Universe that its mathematical and logic complexity goes well beyond this book. Thus we will try to give only a bird’s view of that model, studying according to the ternary principle its fundamental dualities and ternary structures that appear both in String Theory and Quantic Spaces-Times Theory:
 - The 3±1 ages of the Universe in time… And its equivalent 3 Non-AE zones in space: the energetic membrane; the informative, gravitational nucleus; and the intermediate regions of radiant matter that combine both. The Universe is dual, organic and efficient, as each spatial geometry has also a temporal function and both integrate into an organic Fractal Organism. ‘Chaos’ is the partial perception of that duality, when scientists only consider the spatial, energetic arrow. While ‘determinism’ is the opposite error, when scientists think that evolution is a fixed arrow that cannot be ‘reversed backwards through energetic, erasing death processes. The Universe is both an evolutionary process, and a complex Fractal Organism in which each part accomplishes an organic function. Here, we will consider in more detail the spatial, organic Universe to complete that well known evolutionary view.
- The 3±1 scales of matter of the Universe: the Planck, Atomic and cosmological scales.
- The processes of transformation of spatial dimensions into informative dimensions and vice versa that structure dynamically the events of that Universe.
- The uncertainties that exist in many theories and definitions of Astro-Physics, which might make this book more confusing but are needed in front of so many dogmatic assumptions about reality.
In that regard Quantic Spaces-Times Theory offers many whys to the hows of Astrophysics, fusioning in the process the most successful AE-cosmologies, but it also opens new questions at a deeper level that only recently AE-cosmology has considered .