where:
S = Entropy (Joules per Kelvin, J/K), representing structured spacetime information
H’ = Higgs Field Contribution (as an energy density-like term)
M = Mass (kg), the emergent effect of structured quantum information.
k_B = Boltzmann’s Constant (J/K), ensuring thermodynamic consistency.
α = Unified Scaling Factor (dimensionless), encoding entropy, curvature, and quantum information density.
c³ = Relativistic Scaling Factor (m³/s³), maintaining compatibility with relativity.
Statement on “Sciety” Featuring F-HUB
We are pleased to acknowledge that The FELDT-HIGGS Universal Bridge (F-HUB) - Part One: The Birth of Spacetime has been featured on “Sciety”, a platform dedicated to highlighting emerging scientific research. This recognition marks an important step in bringing F-HUB into broader academic discussions.
We appreciate Sciety’s engagement with our work and look forward to continuing the conversation as we expand on the F-HUB framework with Life and Death.
For those interested, you can explore the featured article on Sciety [https://labs.sciety.org/articles/by?article_doi=10.31219/osf.io/mnwke_v1].
— Waldemar Feldt
The Feldt-Higgs Universal Bridge (F-HUB) Theory is named in honour of Peter Higgs, the visionary physicist whose groundbreaking work led to the discovery of the Higgs field, the mechanism responsible for giving mass to fundamental particles.
Higgs’ work was revolutionary, potentially misunderstood, and far ahead of its time. His insight—that a field must exist to give particles mass—was one of the greatest breakthroughs in modern physics. However, while the Higgs field explains how mass is assigned, it does not fully answer why mass exists in the first place or how it connects to the deeper structure of reality.
F-HUB builds upon Higgs’ legacy, proposing that mass, spacetime, entropy, and even cosmic expansion emerge from structured quantum information itself. The importance of the Higgs field extends far beyond its currently understood role, as it also serves as a fundamental boundary between energetic states and matter—a connection that is critical in Part Two (Life) of F-HUB, where we derive links between observation, entropy, and the expansion of the universe.
Moreover, F-HUB Part Three (Death) will further expand on the role of the Higgs field, pushing its implications beyond physics into the deeper nature of existence, information, and even consciousness.
As for the name, we initially chose F-HUB simply because it abbreviates well and is easy to remember. However, as the work continues to unfold, we recognise its potential to gain broader recognition. If it does, it will be because the theory holds true, resonates with those seeking deeper answers, and expands upon the foundational work of those who came before us.
Far from replacing Higgs’ contributions, F-HUB seeks to complete the picture, bringing clarity to the mechanisms that govern mass, gravity, and the evolution of the universe itself.
Born from a relentless pursuit of understanding, F-HUB emerged as a groundbreaking framework bridging mass, gravity, entropy, and spacetime into a unified theory. Rooted in rigorous mathematics and testable predictions, it challenges conventional physics while enhancing our understanding of reality. More than a theory, F-HUB is a paradigm shift an invitation to explore the very fabric of existence.
What is F-HUB?
F-HUB (Feldt-Higgs Universal Bridge) is a revolutionary framework that unifies mass, gravity, entropy, and spacetime into a single, coherent model.
It redefines reality by explaining how structured information forms the foundation of the universe, bridging quantum mechanics and cosmology into a seamless theory.
How Does F-HUB Work?
F-HUB proposes that mass, generated by the Higgs field, creates gravity, which in turn drives entropy, structuring spacetime itself.
This process transforms raw information into the physical world, following precise mathematical laws that can be tested and validated, making F-HUB a breakthrough in theoretical physics.
