Theoretical & Fundamental Physics

Theoretical & Fundamental Physics at Zendar Universe focuses on exploring the underlying laws that shape the universe. This category includes research on spacetime geometry, quantum mechanics, cosmology, and particle mass generation. The goal is to build models that explain the nature of matter, energy, and the fundamental forces governing reality.

Projects under Theoretical & Fundamental Physics investigate quantum fields, fractal spacetime, dark matter, gravity, and cosmological constants. These studies combine advanced mathematics, simulation, and conceptual modeling to understand how the universe behaves at its most basic level. Examples include the Fractal Spacetime Dynamics (FSD) project and other ongoing theoretical explorations.

Theoretical physics drives the discovery of the principles that guide experimental research. It provides the mathematical frameworks that explain particle interactions, cosmic evolution, and spacetime structure. Through this category, Zendar Universe contributes to advancing new paradigms that connect quantum theory, relativity, and cosmology for a unified understanding of the universe.

Researchers and students can join Zendar Universe’s Research Collaborators Program to participate in theoretical studies, publish findings, and develop new models. The program welcomes individuals passionate about fundamental physics, astrophysics, and mathematical cosmology, offering opportunities for publication, peer collaboration, and outreach through open-access initiatives.