This repository contains the research implementation and data for the radiative rigidity project. It is an integral component of the Vasquez research ecosystem and is tracked via the Vasquez Index.
This module provides the core logic and analysis for radiative rigidity within the URF framework.
This repository is a registered module of the Vasquez Index. Stable references, reproducibility links, and deployment status can be found at:
- Registry Handle: inaciovasquez2020/radiative-rigidity
- Stability: Refer to the Vasquez Index for the latest stable DOI.
- Infrastructure: scientific-infrastructure
Physics statement
The core physics claim supported by this repository is stated cleanly and independently of the verification machinery here:
docs/PHYSICS_STATEMENT.md
Readers interested in the physics result should start there. This repository exists to make that claim checkable and reproducible.
- Radiative Rigidity overview: https://inaciovasquez2020.github.io
- Verification status: https://inaciovasquez2020.github.io/vasquez-index/dashboard.html
- Reproducibility: To ensure consistent results, follow the environment configurations defined in the
scientific-infrastructuremodule. - Integration: This repository is intended to work in conjunction with
chronos-urf-rrandurf-core.
If you use this research or the associated implementation in your work, please cite it as follows:
@manual{Vasquez_Radiative_Rigidity_2026,
author = {Vasquez, Inacio F.},
title = {Radiative Rigidity: Research Implementation and Analysis},
year = {2026},
url = {[https://github.com/inaciovasquez2020/radiative-rigidity](https://github.com/inaciovasquez2020/radiative-rigidity)}
}
## Quickstart (60 seconds)
```bash
./scripts/radius checkURF Radiative Rigidity Certification (Physics Infrastructure Tier)
This repository includes URF Certification Artifacts.
A certification release is not a software release. It makes no performance guarantees, no completeness claims, and no implications beyond explicitly stated theoretical boundaries.
Certification artifacts are declarative, cryptographically signed, immutable, and inert with respect to CI and runtime behavior.
Claims apply only within the declared perturbative and theoretical regime. All non-claims and excluded regimes are explicitly listed in the certification files.