Structure and Derivation of Physical Constants through Wave Confinement

Reyes, Richard J.

doi:10.5281/zenodo.15596159

Preprint · Release 02

Structure and Derivation of Physical Constants through Wave Confinement

Richard J. Reyes

Independent Researcher · April 26, 2025 · 10.5281/zenodo.15596159

CategoryPrimary WCT foundation Research statusMathematical derivation

Read on Zenodo Open DOI View citation

Abstract

This preprint examines whether fundamental constants can be represented as structural consequences of resonance geometry and curvature-regulated standing waves. It develops mappings between confinement parameters, harmonic organization, information constraints, and candidate values for physical constants.

Plain-language overview

Research question

Can fundamental physical constants be represented as structural consequences of resonance geometry and curvature-regulated standing waves?

Main contribution

Develops mappings between confinement parameters, harmonic organization, and information constraints.
Proposes candidate structural origins for selected physical constants within the WCT framework.

Evidence type

Analytical derivation

Current limitations

The mappings are exploratory and the candidate values are presented as structural proposals, not validated determinations of measured constants.

Research assets

Read & download: Zenodo record (manuscript and files)
Research program hub: geometry_of_resonance — equations, manuscripts, and simulations

Related works

Verification and traceability

This section is generated from the canonical publication traceability registry. Empty fields are reported rather than inferred.

Claim IDs: None registered
Equation IDs: None registered
SymPy audit: None registered
Lean coverage: None registered
Assumptions: None registered
Formalization: UNMAPPED
Empirical state: EXPLORATORY_MAPPING
Independent replication: NONE_RECORDED
Repositories: geometry_of_resonance

Explicit falsifiers

A parameter-frozen derivation fails to reproduce the target constant outside the calibration set.

Open obligations

Register each constant separately with exact equations, free parameters, calibration data, uncertainty, failed candidates, and out-of-sample predictions.

Recommended citation

Reyes, R. J. (April 26, 2025). Structure and Derivation of Physical Constants through Wave Confinement. Zenodo. https://doi.org/10.5281/zenodo.15596159

BibTeX RIS DOI resolver ORCID author

Machine-readable identifiers

DOI: 10.5281/zenodo.15596159
Zenodo: https://zenodo.org/records/15596159
Local metadata: https://rickyjreyes.github.io/publications/physical-constants-through-wave-confinement.html
Author: ORCID 0009-0005-5975-8718

This landing page provides accessible summaries and citation metadata for an archival preprint. The authoritative manuscript and downloadable files are maintained on the Zenodo DOI record. Wave Confinement Theory is an evolving independent framework; claims should be evaluated according to the derivations, simulations, experiments, data analyses, assumptions, and limitations stated in the paper itself.