Independent Research Programme in Theoretical Physics · Computational & Pre-Peer-Review

The Universe Isn't a Machine.
It's an Information Processing System.

Codex Alpha is an independent theoretical physics research programme exploring informational gravity and emergent spacetime — the hypothesis that the universe is not a machine but an information processing system, where spacetime, gravitational dynamics and quantum phenomena arise from a deeper informational coherence structure governed by the gradient ∇K.

Read the Mathematical Foundations Explore the Computational Framework

GitHub · Iconoclast 3.0 DOI · Newsletter

An Open Research Stack

Four Layers, Kept Deliberately Separate

Codex Alpha is structured as four distinct layers with different epistemic status, so the theory can be evaluated on the merits of each part rather than as a single undifferentiated claim.

01 — THE FORMAL CORE

Foundations of Codex Alpha Dynamics

The minimal effective continuous sector, derived from an explicit variational principle. Recovers General Relativity in the ∇K → 0 limit and is free of Ostrogradsky ghosts in its minimal sector.

Published DOI 10.5281/zenodo.20355167 →
02 — THE THEORETICAL ARCHITECTURE

Codex Alpha 3.0 — Iconoclast Edition

The full extended research programme: the Telascura substrate, nodal structures, informational curvature, retrocausal operators and the biological bridge.

Submitted to Physical Review D · under review DOI 10.5281/zenodo.17074972 →
03 — THE DATA LAYER

Codex Alpha Computational Framework

A closed-beta demonstrator for AI-assisted triage of Gaia DR3 data — anomaly detection, graph-based ranking and interpretability, built to test the framework against real observational data.

Active development DOI 10.5281/zenodo.20335018 →
04 — THE PUBLIC BRIDGE

Frontiers of Reality

An 11-volume series of narrative science essays translating the paradigm shift for a general audience — kept deliberately separate from the scientific evidence above.

2 of 11 volumes published See the books →
Theoretical Physics & Computational Cosmology

Research Directions

The recurring themes that connect the theoretical, computational and collaborative layers of Codex Alpha's research programme in theoretical physics.

Informational Gravity

Development of coherence-weighted gravitational dynamics, where effective energy-momentum response is controlled by the local coherence gradient ∇K.

Emergent Spacetime

Study of spacetime geometry as an effective continuous approximation emerging from a deeper informational network structure.

Weak-Field Signatures

Investigation of possible deviations in post-Newtonian regimes, gravitational lensing, perturbations and gravitational-wave propagation.

Computational Cosmology

Data-oriented workflows for anomaly detection, crossmatching, candidate ranking, graph modeling and interpretable exploratory analysis.

Mathematical Foundations

Variational methods, ADM decomposition, small-gradient expansions, stability analysis and recovery of General Relativity in the uniform-coherence limit.

Collaborative Extensions

Open theoretical and computational collaborations, including geometric, fractal, torsional and inference-based approaches relevant to fundamental physics.

Academic Network

Collaborative Research

Codex Alpha does not operate in isolation. Selected collaborative work with mathematician Louis-François Claro extends the framework's geometric methods to some of the most difficult open problems in mathematical physics, via 5D Higgs-Torsion geometry and fractal dimensionality.

Yang–Mills Mass Gap

Proposal of a unified resolution of the Yang–Mills mass gap via 5D Higgs-Torsion geometry and fractal control.

DOI: 10.5281/zenodo.16168587

Hybrid Cosmology, N-Body & Navier–Stokes

A unified treatment of the Navier–Stokes equations, N-body dynamics and cosmology via 5D Higgs-Torsion geometry.

DOI: 10.5281/zenodo.16153428

Navier–Stokes

Proposal of a complete solution of the Navier–Stokes equations via 5D Higgs-Torsion geometry and information dimension.

DOI: 10.5281/zenodo.16039574

Gravitational N-Body Problem

Proposal of a resolution of the gravitational N-body problem in 5D via Higgs-Torsion gradient and information dimension.

DOI: 10.5281/zenodo.15874407

Fractal Geometric Theory of Fundamental Problems

Unified synthesis of the Yang–Mills mass gap, Navier–Stokes, the N-body problem and cosmology through geometric-fractal methods.

DOI: 10.5281/zenodo.16466845

The Public Bridge

Frontiers of Reality — Science Books

A popular science series translating the deepest conceptual consequences of modern physics for a general audience, without reducing them to slogans. Each volume follows one fundamental intuition and shows how contemporary science forces us to refine it.

Nine more volumes are planned in the series.

Technical Manuscripts

Research Editions

The research manuscripts remain openly accessible through DOI releases. Paperback and Kindle editions are offered for readers who prefer a physical study format and wish to support independent research.

Support the Research
The official research PDFs remain freely accessible through their DOI pages. For readers who wish to support continued independent research, a voluntary direct PDF download — including the Iconoclast Edition — is available through the project support page.
Support the Research — PDF Download
The Data Layer

Codex Alpha Computational Framework

An AI-assisted infrastructure for computational cosmology: exploratory analysis of cosmological structures, anomaly detection, graph-based modeling, ranking and interpretability, built to move from formal predictions toward testable, data-driven workflows.

Framework Role

Not a replacement for theoretical derivation — the computational and exploratory layer of the project, designed to help test formal predictions against real data.

Current Status

Closed-beta demonstrator running on a 1,000-source ESA Gaia DR3 sample: Isolation Forest anomaly scoring, relational graph modeling and a 50-candidate ranked pool.

Planned Direction

Link prediction, interpretable embeddings, crossmatching workflows, physics-informed constraints and interactive notebooks for direct browser-based exploration.

Reproducible Computational Research

The pipeline, model code and dataset structure are openly hosted on GitHub. Interactive notebooks for running the pipeline directly from the browser are planned for a future release.

Explore the Framework Technical Overview GitHub Repository Framework DOI
Falsifiability

Validation Roadmap

How the theory is meant to be tested — three protocols ordered from what is already underway to what depends on future observational missions.

TODAY

Astrometric anomaly search

Searching ESA Gaia DR3 for statistical deviations in proper motion and structure that align with predicted coherence gradients.

NEAR-TERM

Quantum correlation tests

Demonstrating the predicted retrocausal correlation structure on IBM Qiskit quantum hardware.

FUTURE MISSIONS

Informational imprints

Searching for coherence signatures in cluster alignment and B-mode polarization data from Euclid and LISA.

Collaborate

Join the Research

Codex Alpha Research is open to technically serious collaborations in mathematical physics, computational cosmology, AI-assisted analysis, graph modeling, simulation design and observational validation.

Collaboration Focus Areas

Especially interested in collaborators able to contribute to rigorous theoretical review, numerical prototyping, simulation design, dataset integration, graph-based modeling, anomaly detection, interpretability and reproducible research infrastructure.

Suitable profiles include independent researchers, physicists, mathematicians, ML engineers, computational scientists, data analysts, visualization specialists and research-oriented developers.

Contact by Email

Submit a Short Proposal

Submissions are intended for research collaboration only. Please include a concise technical contribution, not a generic promotional message.

Coverage

Media & Outreach

[フレーム]
[フレーム]
[フレーム]
Sirotin Intelligence — Feature Article
"The Universe Isn't a Machine — It's an Information Processing System: How Theoretical Physicist Davide Cadelano's Codex Alpha Framework Challenges Everything We Know About Reality."
Read the full article on Sirotin Intelligence →
[フレーム]
Energy VS Telascura
A cinematic sci-fi animation created as an outreach experiment — not a formal scientific demonstration, but a visual gateway meant to spark curiosity about physics, motion and structure.
Watch on YouTube →
Updates

News

June 2026 — Published Time Is Not a River, the second volume of the Frontiers of Reality series. English paperback now available on Amazon.com.
June 2026 — Published the Italian edition Il Tempo non è un Fiume, available on Amazon.it in paperback and Kindle.
June 2026 — Launched The Universe Is Not a Machine, the first volume of Frontiers of Reality.
May 2026 — Published Foundations of Codex Alpha Dynamics. DOI 10.5281/zenodo.20355167.
May 2026 — Released the Codex Alpha Computational Framework. DOI 10.5281/zenodo.20335018.
September 2025 — Published Codex Alpha 3.0 — Iconoclast Edition. DOI 10.5281/zenodo.17074972.
April 2020 — Origin of the Codex Alpha research project during the first COVID-19 lockdown.
The Author

About

Davide Cadelano is an independent theoretical physicist and researcher working on gravitational models, quantum frameworks, emergent spacetime and the unification of physical laws. He leads the formal and conceptual development of Codex Alpha — Unified Field Theory, a research framework in which spacetime is modeled as emerging from an informational coherence structure through gradients of the scalar field ∇K.

The construction is covariant, recovers General Relativity in the ∇K → 0 limit, and predicts testable departures in cosmological, gravitational-wave, lensing and weak-field regimes. His work sits at the interface between mathematical modeling, quantum mechanics and general relativity, with emphasis on variational principles, emergent geometry, perturbation theory, metric generation and energy–momentum dynamics.

Recent technical results include linear-response kernels, small-gradient expansions, FRW background and perturbation analysis, modified tensor-mode propagation, an ADM Hamiltonian formulation, TOV equations with informational contributions, black-hole thermodynamic extensions and stability analysis. Codex Alpha 3.0 — Iconoclast Edition, the full theoretical architecture of the project, has been submitted to Physical Review D and is currently under peer review.

Codex Alpha introduces the Telascura: a coherent quantum-informational structure from which spacetime is treated as an effective emergent geometry, developed through explicit assumptions, variational principles, computational workflows and falsifiable predictions.

Identifiers & Links

Email
davide.cadelano@codexalpha.org
ORCID
0009-0008-2253-7008
GitHub
github.com/Miriadenera
LinkedIn
davide-cadelano-5b68a936a
X
@QIM_METATRON
Instagram
@codexalpharesearch

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