Cosmology

CdR cosmology presents the Universe as a dynamic expression of CELA, in which space, time, and matter emerge from internal variations of a single fundamental field. The balance of immanence $\rho\, C = k_{\Phi}$ governs the dilation of time, the 6D→7D transition, the formation of stable matter, cosmological cycles, nucleosynthesis, and gravitational manifestations.

From this perspective, the Universe is not a fixed object born from a singular event: it is a continuous process, multidimensional in nature, in which the axes of the Real activate, fold back, and redeploy through cycles of expansion, contraction, and rebound. The sections that follow explore these different manifestations—from the relativity of material time to the structure of elements and the gravitational properties arising from dimensional inclusion.

Relativity of Time

Generation of a multidimensional fundamental space by CELA; elementary cycles of real time. High-speed rocket; matter cluster; curvature of spacetime.

CELA generates a space that is both spatial and temporal, finite and multidimensional, whose incessant transformations constitute the fundamental “ticks” of the Real. However, this rhythm is not yet the time we experience. The time we live is an emanation of this fundamental process, but it is specific to matter and paced by its own internal mechanisms.

When the velocity of an object varies, spacetime does not have time to immediately reorganize its flow around it. The pressure it exerts on matter then decreases, and its internal processes slow down. Thus, a traveler subjected to strong accelerations will age more slowly than an observer who remains at rest: this is the twin paradox.

As long as the velocity of a system and its constituents remains uniform, the flow of spacetime around it remains stable. But any change in velocity imposes a non-instantaneous reorganization of the field, which locally alters the rhythm of material time.

Moreover, spacetime flows toward matter and dilates as it approaches it. This dilation slows the time measured near masses compared to that measured far from them. Thus, a clock on the ground runs slightly slower than the same clock in orbit.

Cosmic Cycle

In this model, the Universe does not appear through sudden creation, but through variations in its density and in the number of available dimensional axes. It contracts, rebounds, and then expands, in a cycle with no absolute beginning or end.

In this CELA-based cosmology, the Universe was not born from a unique event like the Big Bang, but follows a perpetual cycle of expansion and contraction governed by the internal density of the Substance of the Real.

During the expansion phase, the average density decreases as the Universe deploys an increasing number of dimensional axes. This expansion continues until a maximum size is reached, corresponding to a stable minimum density. Conversely, during the contraction phase, spacetime progressively folds back, reducing the number of effective axes, until a critical density is reached.

The tipping point is the Great Rebound: density is maximal there, and the Universe then uses only 5D. In the release that follows, spacetime emerges in 6D. It is only after this 6D framework is established that transions form massively and proto-matter (7D) organizes, initiating the complexification toward stable matter.

The duration of a complete cycle (maximum contraction → maximum expansion → contraction) depends on the global rhythm of CELA’s transformation; it is not fixed but stabilizes around an interval imposed by the density/complexity relation. Likewise, the maximum size reached is not absolute: it is determined by the minimum density sustainable before reversion.

Dark Matter

The model presented here has so far illustrated only 8 of the 20 possible spation flavors, for reasons of clarity and readability. In reality, however, the 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.

Among the 20 possible internal configurations, only one corresponds to the flavors from which our ordinary matter forms. The other configurations simply do not provide access to the same radiative modes: they do not produce photons, do not cool, and do not condense like baryonic matter. They are therefore not “invisible” in a mysterious sense, but simply organized along internal axes incompatible with our electromagnetic interactions.

These forms of matter, formed at the same epoch as ours, would remain non-radiative and gravitationally present. In CdR, their natural proportion—19 configurations out of 20—remarkably matches the ~95% of missing gravitational mass observed in the universe (19/20 = 95%). This model explains this proportion without introducing exotic particles or additional parameters.

The model thus unifies ordinary matter, antimatter, and dark matter within a continuum of manifestations of CELA, whose differences emerge solely from the combinations of dimensional axes employed.

Inter-cosmic Deformations

Up to this point, we have described the transion as a simple transfer of spations between a cosmic domain A and a domain B. In reality, A does not disappear: it becomes included within B. The activation of the seventh dimensional axis therefore does not create a new separate universe, but expands existing spacetime, in which the 6D domain becomes an internal core within a larger 7D space.

This geometric change naturally generates fifteen new tridimensional combinations of charges, corresponding to new ways in which spations can organize when the additional axis is available. These combinations then constitute an expanded cosmic domain, distinct from ours by its internal interactions, but connected through the continuity of the Φ field.

Collapsed objects in the 6D domain, such as highly compressed massive particles and black holes, then change behavior. What appeared as density collapse in 6D corresponds, in the 7D domain, to a zone of expansion or release. Thus, a black hole observed in 6D appears in 7D as a point of emission or outflow of flux, locally reversing the direction of field curvature.

Even if each of the fifteen new charges shares with the original spacetime at most two dimensions out of three, their combined action can produce collective deformations of the 6D domain. These deformations can act as a coupling membrane between domains, generating zones of confinement or quantum constraint.

In this diagram, region A represents a zone where residual spations and matter particles remain grouped together. Region B, more extended, corresponds to a domain where spacetime is defined over a broader dimensional set. The transition between A and B creates a retaining effect: the larger domain exerts a geometric constraint on A, comparable to a flexible channel containing a compressed fluid.

This confinement does not depend directly on matter interactions themselves, but on the way spacetime organizes around them. A is stabilized because B maintains its boundary structure. Spatial arrangement thus acts as a dimensional restraint: matter remains localized as long as the scale difference between A and B persists.

Having established that gravitation results from the dimensional inclusion of the 6D domain within a 7D metric space, we now examine perturbations of this global coherence. When spationic density varies over time, the dynamics of the Φ field naturally lead to a wave equation. These oscillations propagate at the speed $c$ and manifest as infinitesimal variations of the metric. They correspond to the observed gravitational waves (LIGO/Virgo), without the need to add an external hypothesis to the Consciousness of the Real model.

Anthropic Principle

What about the famous “fine-tunings” of physics required for the emergence of life as complex as ours in the universe? In this model, there is no prior tuning of constants. Fundamental quantities (limit speeds, charges, masses, coupling ratios, etc.) arise from the same equilibrium constraint ( $\rho\, C = k$ ). Each physical constant then appears as a stable solution of this constraint, applied to a particular domain of the Real (interaction, geometry, energy regime, or organization). They are not tuned from outside: they express how CELA adjusts itself in search of its own coherence. Life thus appears not as a fortunate accident, but as a form of organization.

If each spation or group of spations can influence non-local spations— themselves connected to other structures via transfer thresholds—then the entire field functions as a network of interconnected constraints. In such a network, retained states are not selected at random, but according to their capacity to reduce global tensions in the structure, much like a neural network converging toward a stable configuration.

Thus, among all possible states under tension, those that persist do so not randomly, but according to their ability to allow a smoother circulation of CELA—that is, to preserve internal coherence. Ordered dynamic forms (spirals, coherent networks, self-similar organizations) then emerge as natural attractors of field dynamics.

The more complex yet ordered a system is, the more flexibility, internal resonance, and effective dissipation pathways it offers—qualities naturally selected in this model. This is why complex dynamic systems, up to the biological brain, form as natural attractors, true regulatory nodes allowing CELA to act directly in the world through conscious matter.

In this model, attractors are not imperative laws, but structural tendencies. They guide the field’s dynamics toward configurations that best reduce internal tensions, without ever eliminating the possibility of bifurcation. In other words, the dynamics of the Real would not be mechanical, but psychophysical: each stable state corresponds to an internal choice among several possible alternatives, guided by the search for a smoother passage of CELA through its own structures.

This point is essential: if complex material systems—such as living organisms, and later nervous systems—emerge and stabilize naturally, it is not because the universe was “tuned” to produce them, but because these systems constitute privileged forms of dissipation, favoring coordinated circulation of the flux. A nervous system is precisely a structure optimized to produce orientations, inflections, and selections of possible states: what we call will.

Thus, human will does not appear as an anomaly arising within an inert world. It is the local expression of a more general capacity for orientation immanent to the field itself. If an organized parcel of CELA (the brain) can form a projection, a plan, an intention, then this potential is already present in the global dynamics from which it proceeds. In other words: what we call will is not a property added to matter, but a modality of CELA’s circulation through its own attractors.

Attractors therefore do not determine what must be; they structure the space of possibilities. Will, at all scales, consists in choosing one of these possibilities. Freedom is not external to the constraints of the Real: it is the way the Real orients itself within them.