Draft:Primordial Mesh Theory

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• Comment: Wikipedia is not a place to publish your own ideas KylieTastic (talk) 20:50, 24 June 2025 (UTC)

The Primordial Mesh Theory (PMT) is an independent theoretical proposal in the field of theoretical physics and cosmology, developed by the Brazilian researcher Douglas Magalhaes de Vasconcelos. The theory proposes that the universe is structured by a fundamental, continuous, and dynamic energy mesh, from which all known physical phenomena emerge, such as gravity, light, cosmic expansion, and the very perception of time.

Unlike established theories that start from the geometry of spacetime (such as general relativity) or the quantum behavior of particles, PMT starts from a fundamental field called the mesh, where forces, motions, and transformations occur through tensions, gradients, and fluctuations. The theory has been disseminated through open publications with DOI and explanatory videos.

PMT began to be formalized between 2024 and 2025 as an attempt to offer a new unifying paradigm for physics. Its creator, Douglas Magalhaes de Vasconcelos, proposed that observable physical phenomena could be derived from the behavior of an underlying energy structure, which he called the primordial mesh.

The inspiration came from observing patterns in computational simulations, reading classical philosophical and scientific texts, and attempting to interpret the universe as an organized and intentional tension. The proposal emerged outside the traditional academic environment, being disseminated with open source code and direct publication on platforms such as Zenodo.

The PMT is conceptually influenced by ancient and modern philosophical traditions. Ideas from Heraclitus about universal change, the Stoic concept of a rational organizing principle (logos), and Spinoza’s view of substance as a single, self-sustained reality all contributed to the intuition that the universe may be a unified, tension-based field. These philosophical roots helped shape the metaphysical dimension of PMT.

PMT is based on postulates that break with the dominant models of modern physics:

• The universe is a continuous energy structure called the primordial mesh, which exists independently of observers.
• Gravity is interpreted as a tension gradient in the mesh, resulting from local fluctuations or collapses.
• Light is a transverse oscillatory perturbation of the mesh, not an isolated particle.
• Local fluctuations correspond to energy concentrations that deform the mesh, giving rise to mass and motion.
• Intention is modeled as a vector capable of altering the density and direction of the mesh at a point.
• Time is not an absolute background but emerges from the reorganization of mesh tensions as a perturbation propagates.

The theory uses vectors, tensors, and spatial derivatives to model the mesh dynamics. Each point of the mesh has an energy density ${\displaystyle \rho (x,y,z,t)}$ and an intention vector ${\displaystyle {\vec {I}}(x,y,z,t)}$, which represents the tendency for local reorganization.

The mesh is described by a state function:

${\displaystyle M(x,y,z,t)=\rho (x,y,z,t)\cdot {\vec {I}}(x,y,z,t)}$

The tension field is defined as the gradient of the density:

${\displaystyle {\vec {T}}=\nabla \rho }$

The gravitational force is interpreted as the direction and intensity of the mesh tension:

${\displaystyle {\vec {g}}=-\nabla \rho }$

The propagation of light is described by a transverse oscillation with phase velocity variable according to local tension:

${\displaystyle c_{\text{local}}=f({\vec {T}})}$

Where ${\displaystyle c_{\text{local}}}$ represents the speed of light at that point in the mesh, affected by the tension.

The total energy of a system is defined as:

${\displaystyle E=\int _{V}\rho \cdot \left|{\vec {I}}\right|\,dV}$

The theory has been illustrated through a series of custom simulations showing tension gradients, fluctuation propagation, and light oscillations within a mesh. These visualizations are available through the PMT YouTube channel and Zenodo datasets.

• PMT simulation videos
• Source code and documentation

• While general relativity interprets gravity as curvature of spacetime, PMT sees it as tension in an energy mesh.
• While the standard model describes particles as discrete entities, PMT proposes that particles are merely stable deformations of the mesh.
• Light, instead of being a wave-particle duality, is understood as a continuous vibration in the mesh field.

• Gravitational anomalies in low-density regions without invoking dark matter
• Variations in light propagation speed depending on mesh tension
• A theoretical framework for consciousness as modulation of intention vectors
• Emergence of time from wavefront propagation rather than as a fixed dimension

PMT has been registered and disseminated on open platforms:

• Zenodo: publication with DOI –
• ORCID: author profile –
• YouTube: explanatory videos –

The PMT has not been published in peer-reviewed journals and has yet to undergo academic validation. Some physicists question the lack of experimental grounding and mathematical formalism comparable to mainstream frameworks like general relativity and quantum field theory. However, the theory’s originality and openness have sparked interest in independent science and metaphysics circles.

As it is a theory proposed outside academia, PMT has not yet been peer-reviewed in scientific journals. However, its originality and open structure have attracted interest in alternative science and philosophy of physics circles.

The proposal faces difficulties of acceptance for departing from the established paradigm but also draws curiosity for its attempt to explain phenomena such as gravity, time, and consciousness from a single structure.

• Theoretical physics
• Gravity
• Physical cosmology
• Unified theories
• Higgs field – an example of a fundamental field in current physics
• Differential geometry – used in the modeling of fields and tensors
• Alternative theories of gravitation

• Official publication on Zenodo
• ORCID – Douglas Magalhaes de Vasconcelos