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Fractal Spacetime Dynamics (FSD)

Exploring how fractal spacetime geometry defines the origin of particle mass.

A hyper-realistic cosmic visualization of a swirling vortex, featuring intricate, fractal-like filaments of blue and orange energy and countless sparkling particles.
Description:

The Fractal Spacetime Dynamics (FSD) project investigates how the fabric of the universe, built upon fractal geometrical structures, governs the emergence of fundamental physical quantities such as mass and energy. Integrating concepts from quantum field theory, cosmology, and advanced mathematical modeling, this research explores the possibility that matter arises from structural inconsistencies embedded within spacetime itself. By applying the Fractal Consistency Law to the Standard Model, FSD aims to reproduce observed mass distributions with remarkable precision. This theoretical framework provides new insight into particle formation, dark matter relationships, and cosmic evolution. Through open collaboration and rigorous analysis, Zendar Universe seeks to bridge the gap between abstract theory and observable cosmological phenomena.

Publications from Fractal Spacetime Dynamics (FSD)

A hyper-realistic scientific visualization of a swirling vortex, featuring countless golden and teal light trails and particles accelerating into a bright, tunnel-like central point.

November 3, 2025

Mass as Structural Inconsistency: A Fractal Derivation of the Standard Model Mass Spectrum

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FAQs about Fractal Spacetime Dynamics (FSD)

The Fractal Spacetime Dynamics (FSD) project by Zendar Universe explores how the geometry of spacetime, modeled as a fractal structure, could explain the origin of particle mass and energy in the universe. It unites ideas from quantum field theory and cosmology to study how structural inconsistencies in spacetime lead to observable physical properties.

Fractal spacetime theory suggests that the fabric of the universe is self-similar at every scale. In this model, mass arises from geometric distortions or inconsistencies within that fractal structure. The FSD project uses mathematical modeling and theoretical physics to reproduce Standard Model mass patterns with high precision, offering a new perspective on how matter originates.

The FSD project provides a novel framework that could bridge quantum mechanics, relativity, and cosmology. By interpreting physical constants and particle properties through fractal geometry, it aims to advance the understanding of mass formation, dark matter, and spacetime structure—key frontiers in fundamental physics research.

The Fractal Spacetime Dynamics research is conducted under Zendar Universe’s Theoretical & Fundamental Physics category, in collaboration with independent researchers and academic partners. Contributors investigate fractal-based cosmological models and publish open-access preprints to encourage transparency and global scientific collaboration.