About — Relator Theory Community
Relator Theory was first introduced by M. Pajuhaan.
It posits a single internal kinematic constraint, Rω=c, from which key phenomena in quantum mechanics and relativity can emerge. If borne out by evidence, Relator could be a candidate for the most fundamental layer of physics—the long-sought missing piece connecting quantum behavior with gravity and classical spacetime.
Origins & motivation
Einstein spent his final years searching for a unifying principle that would connect all interactions—especially gravity—with quantum theory. Richard Feynman also believed a deeper framework should exist, one that tames QED’s infinities/divergences. Relator is a concrete, testable proposal in this spirit: a minimal postulate aimed at reproducing Lorentz time dilation, gravitational redshift, light deflection, measurement (quantum bifurcation), entanglement, and precision observables such as the electron/muon ggg-factor—all with transparent calculations.
Scope
We welcome analytical and numerical work on: emergent relativity and gravity, measurement/branching, entanglement mechanisms, precision magnetic moments, links to GR/QFT/CFS/Madelung, datasets and code, replications, and constructive critiques.
Values
Clarity over jargon, reproducibility, and open dialogue. This is a curated venue (not formal peer review); authors retain rights and may version their work. Propose tests, share results, or challenge the postulate—let’s stress-test simple principles and keep the math visible.