MetatronResearch.org · FTL Labs
MetatronResearch.org exists to advance human understanding of reality by developing a reproducible research system that translates measurements from any field into a single shared language — and uses that language to find hidden structure.
Our Mission
"Turn deep questions about structure, time, and physical law into clear computations, falsifiable predictions, and open results that accelerate scientific progress."
Every result is designed for independent replication. We release data, plots, and methods alongside findings — including negative results.
The framework must produce measurable constraints that survive independent replication. If it is real, it should not just "fit" known values — it should predict new ones.
All papers, datasets, and computational methods are published openly on OSF. Science advances when results are open, testable, and reproducible.
The goal is a shared language that translates measurements from any field into a common structure — not isolated theories, but a unified map of relationships.
The Team
Founder & Lead Researcher · MetatronResearch.org / FTL Labs
Richard Careaga is the originator of the Metatron Framework — a reproducible research system built around the Metatron Unit (Mt), Seven Seeds, and the ALT Phase Algorithm. His work investigates the proposed geometric information layer beneath spacetime, developing cross-domain analytic tools that translate measurements from any field into a single shared normalization space.
His research spans information compression, time emergence modeling, universal harmonic quantization of physical constants, and falsifiable prediction programs — all published openly on OSF with full datasets and replication steps. He is also the author of The Metatron Chronicles, a forthcoming book series documenting the discovery and development of the framework.
Open Positions
We're building a small, serious team to validate, replicate, and extend the Metatron Framework. Strong backgrounds in math, physics, signal processing, data science, software engineering, or experimental design welcome.
The Work
The Core Equation
MTD(x) = logφ(x / Mt) + Σ Sn · φnThe MTD transform maps any measurement into the Metatron Log space — a φ-based logarithmic lattice anchored by the Metatron Unit (Mt) and structured by the Seven Seeds (Sₙ). This shared space enables direct cross-domain comparison without unit-system artifacts.
MtφSₙHistory
Richard Careaga begins formalizing the Metatron Framework — developing the Metatron Unit (Mt), Seven Seeds, and the core cross-domain mapping methodology.
The ALT Phase Algorithm is developed and documented, establishing phase closure as a first-class variable in cross-domain analysis.
First white papers published on OSF — Information Compression, Temporal Emergence, and Harmonic Prediction of Physical Constants — with full open datasets.
Universal Harmonic Quantization applied to the Muon g-2 anomaly. Time Emergence Framework formalized. MetatronResearch.org launched as a public research hub.
Where We're Headed
Establish the Metatron Unit (Mt / MTD) as a practical normalization system that allows cross-domain comparison without hand-waving — defined terms, transparent transforms, public datasets.
Run a serious prediction program: use mapped structure (bands, clustering, lattice spacing, gaps) to generate falsifiable targets, log them before testing, and publish results whether they succeed or fail.
Move the idea of a geometric information layer beneath spacetime from speculation into a working scientific program — reproducible figures, open critique, and independent replication.
Dive into the research programs, read the white papers on OSF, or reach out to collaborate.