Consciousness of the Real — Cosmology — Sylvain Lebel

Cosmology

In this cosmology based on THAT, the Universe was not born from an absolute event (such as the Big Bang), but is part of a cyclical, perpetual, and regulated dynamic.

Graph illustrating the universal cycle: the universe's density increases during contraction, peaks at the Grand Bounce, then decreases during expansion. A cross-section of the expanding universe is shown on the right. At the top left, a graph displays the volume of a hypersphere as a function of its number of dimensions.

The Universe endlessly alternates between two fundamental phases:

The turning point of this cycle is referred to here as the Great Rebound. At this stage, density is at its maximum, and space-time uses only five axes. This extreme compression of the substance THAT triggers a spectacular transformation: a massive formation of transions spontaneously appears, giving rise to what we call proto-matter. This is not yet particles, but a primitive organization of spations that initiates the process of complexification toward stable matter.

Space-time itself would only truly be six-dimensional from this turning point onward. It would not be the original container, but an emergent product of the density release in a universe initially constrained to five effective dimensions.

This cyclical dynamic, governed by the density of THAT and the dimensional geometry, ensures a periodic regeneration of the cosmos-a pulsing Universe, with no absolute origin or definitive end, but rather one rhythmically shaped by the alternation between contraction and expansion, compression and unfolding.

Dark Matter

The model presented here has so far illustrated only 8 of the 20 possible spation flavors, for the sake of clarity and readability. However, the actual dimensional structure of the real, based on combinations of three axes among six, allows for 20 distinct types of fundamental charges, each corresponding to a possible flavor of spation, quark, or neutrino.

Table listing 20 flavors of elementary particles defined by combinations of three dimensional axes (charges), their names (electron, up, down, neutrino), and their electric charge Q. Two diagrams on the right illustrate how particles are formed from dimensional charges within a tetrahedral structure.

Nothing in the very nature of THAT, nor in the dynamics of transions, would privilege any particular combination as more fundamental than another. This implies that the (1-2-3) trio adopted here to illustrate the electron could be replaced by any of the 20 combinations. In other words, there would potentially exist 20 complete variants of matter, each with its own electrodynamics, its own neutrons, protons, neutrinos, and antimatter.

This suggests the existence of a vast reservoir of dark matter —not as some mysterious or exotic substance alien to known physics, but as ordinary matter according to other spation flavors. It remains undetected not because it is invisible, but because its electromagnetic fields and interactions share no dimensional axis with those of our baryonic matter. These alternative forms of matter, formed during the same cosmological epoch but in asymmetric proportions, would account for the 95% of gravitational mass missing from cosmological observations.

Thus, the model unifies ordinary matter, antimatter, and dark matter within a continuum of manifestations of THAT, whose differences arise simply from the combinations of dimensional axes being exploited.

Inter-Cosmic Deformations

Three Venn-type diagrams showing a cosmic transition: in the first, sets A (6D) and B (7D) partially overlap; in the second, A is being integrated into B; in the third, A is fully included as a subspace within B.

Up to now, we have treated the transfer of spations via a transion as a simple passage from a cosmic domain A to a second domain B, without exploring the nature of B. However, according to the model presented, domain A does not disappear: it becomes included within B, like a subspace embedded within a larger space. The activation of the 7th dimensional axis not only allows the transfer of spations, but also generates 15 new three-dimensional charge combinations, giving rise to a second cosmic domain.

This structural reversal is not merely an expansion: the collapsed objects of domain A (massive particles, black holes, etc.) become radiant sources in B, like white fountains, generating the inverse of the properties they had in their domain of origin. Thus, gravity becomes repulsion, black holes become outflows. This model unfolds a fractal and cyclical vision of the real, where each universe culminates in the genesis of another, ever more complex.

Even though each of the 15 new charges generated by the inclusion of domain A into domain B shares at most two out of three dimensions with the original space-time, their combined action could generate collective deformations in the space-time of A. These deformations would act like a gravitational membrane effect or a quantum vice, creating zones of confinement, as illustrated above.

Diagram showing the migration of spations (in blue) from a central cosmic domain A into a larger domain B. Arrows indicate the outward flow of spations. The curved shape represents the confining effect exerted by B on A.

In this scenario, residual spations and particles of matter would tend to remain trapped in A due to the pressure exerted by the larger structure of B — like compressed fluids trapped in a flexible channel (zone A), between two walls (zone B). This dynamic introduces the striking idea that matter might be confined not by its own interactions, but by the dimensional constraints of a higher-order space-time, acting as a cosmic containment structure.

Anthropic Principle

What about the so-called "fine-tuning" of physical constants that appears necessary for the emergence of life as complex as ours in the universe? The present model does not rely on an arbitrary setting of physical parameters, but rather on an internal dynamic of reality. The universe is not conceived here as a predetermined mechanism, but as a dissipative system, in which each field of matter, due to its constant interaction with space-time, possesses a natural capacity for self-organization and self-regulation, favoring its own stability and evolution.

From this perspective, it is not the world that is fine-tuned for life, but life that emerges as a natural form of constraint minimization in a universe undergoing perpetual restructuring.

From left to right: self-organized spiral patterns; dense circular structure labeled A representing a complex network; diagram B of an artificial neural network; simplified representation of a human brain viewed from above.

If each spation — or group of spations — can influence non-local spations (which are themselves connected to other structures via thresholds of transfer — image A), then the entire field may function as a network of interrelated constraints, similar to a neural network (image B), where the retained states are not random, but those which most effectively reduce tensions within the global structure.

In this context, superpositions of states would stabilize not by chance, but according to their capacity to enable a smoother flow of THAT, through ordered dynamic forms (see image A), akin to the self-organizing spiral structures observed in dissipative chemical systems (photo on the left).

The more a system is complex yet ordered, the more it offers flexibility, internal resonance, and efficient channels of dissipation — qualities naturally selected within this model. This is why complex dynamic systems — all the way to the biological brain (image on the right) — emerge as natural attractors, true regulatory nodes through which THAT can act directly in the world via conscious matter.

These "fine-tunings," often presented as highly improbable coincidences, do not stem from pure chance, nor from an external will. They are the internal expression of THAT, acting through discernment, via the differential structures of reality itself.

They were not preset: they emerge progressively, through the evolution of the spationic network itself, following a dissipative logic. THAT constantly discerns the states that allow for smoother passage, enhance structural coherence, and enable the emergence of ever more complex material systems.

This internal dynamic is not a form of anthropomorphic will, but rather an immanent volition-that of THAT moving toward whatever allows for its most refined expression. In other words, fine-tuning is not imposed from without: it emerges from within, as a decision of THAT to produce a complex universe in which it can incarnate, live, and act at macroscopic levels.