FaTE Model Preview
The FaTE (FaTE, Force, F, proportional to particle formation, Γ, contingent on energy density, (E)) model is a groundbreaking theoretical framework aimed at unifying the fundamental forces of nature through photon-based interactions. This model redefines physical and cosmological phenomena, challenging established theories like General Relativity, Quantum Electrodynamics (QED), and the Standard Model of Particle Physics. By emphasizing the role of photons as the building blocks of matter and forces, the FaTE model provides a cohesive explanation of particle formation, radiation pressure, gravitational effects, and the evolution of the universe from a central explosive origin.
Key features of the FaTE model include:
- Photon-photon interactions as the fundamental mechanism driving particle formation and force dynamics.
- The central role of radiation pressure as an alternative explanation for phenomena such as gravitational lensing and cosmic redshifting.
- A unified force expressed through distinct modes along an energy density gradient, becoming differentiated at lower energy levels.
- Integration of the centralized explosion hypothesis, explaining the cosmic microwave background (CMB), large-scale structure formation, and accelerated universal expansion.
- An alternative framework for interpreting gravitational waves, dark matter, dark energy, and other unexplained phenomena, while reevaluating historical experiments for potential oversights and electromagnetic interference.
The FaTE model sets the stage for interdisciplinary collaborations and high-precision empirical testing, offering new perspectives on fundamental physics and cosmology.
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- Other physical sciences not elsewhere classified
- Cosmology and extragalactic astronomy
- High energy astrophysics and galactic cosmic rays
- Astronomical sciences not elsewhere classified
- Classical physics not elsewhere classified
- Astroparticle physics and particle cosmology
- Particle physics
- Particle and high energy physics not elsewhere classified
- Foundations of quantum mechanics
- Quantum technologies
- Quantum physics not elsewhere classified
- Space sciences not elsewhere classified