JUNO Energy Resolution and Detectability of WCT Ghost-Mode Neutrinos

Reyes, Richard J.

doi:10.5281/zenodo.17715872

Preprint · Release 11

JUNO Energy Resolution and Detectability of WCT Ghost-Mode Neutrinos

Richard J. Reyes

Independent Researcher · November 20, 2025 · 10.5281/zenodo.17715872

CategoryExperiment and detectability Research statusPhenomenological study

Read on Zenodo Open DOI View citation

Abstract

This study evaluates whether WCT-motivated log-energy or ghost-mode modulations could survive JUNO detector resolution, smearing, and systematic limitations. It derives detectability conditions and amplitude-damping estimates intended to define a falsifiable detector-facing forecast.

Plain-language overview

Research question

Could WCT-motivated log-energy or ghost-mode modulations survive JUNO detector resolution, smearing, and systematic limitations?

Main contribution

Derives detectability conditions for WCT-motivated log-energy or ghost-mode modulations under JUNO resolution.
Provides amplitude-damping estimates as a falsifiable, detector-facing forecast.

Evidence type

Analytical derivationNumerical simulation

Current limitations

This is a detectability forecast based on detector-resolution modeling, not a measurement; it depends on the assumed signal model and detector parameters.

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: G1
SymPy audit: G1
Lean coverage: G1
Assumptions: None registered
Formalization: UNMAPPED
Empirical state: DETECTABILITY_FORECAST
Independent replication: NONE_RECORDED
Repositories: geometry_of_resonance

Explicit falsifiers

A preregistered detector analysis excludes the declared modulation amplitude and frequency region.

Open obligations

Publish executable detector-response code, frozen parameters, covariance treatment, and a data-facing test plan.

Recommended citation

Reyes, R. J. (November 20, 2025). JUNO Energy Resolution and Detectability of WCT Ghost-Mode Neutrinos. Zenodo. https://doi.org/10.5281/zenodo.17715872

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Machine-readable identifiers

DOI: 10.5281/zenodo.17715872
Zenodo: https://zenodo.org/records/17715872
Local metadata: https://rickyjreyes.github.io/publications/juno-ghost-mode-neutrinos.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.