Frequency–Information Scaling Across Biological, Quantum, Gravitational, Condensed-Matter, and Helioseismic Systems
Author:
Ankur Bhasin
Bhasin Research Unit for Hyperphysics (BRUH)
This repository provides a public, non reproducible stub of the analysis pipeline used in:
A Universal Coherence Law: Frequency–Information Scaling Across Biological, Quantum, Gravitational, Condensed-Matter, and Helioseismic Systems
Ankur Bhasin, 2025
The work defines and tests a universal coherence scaling law that relates the strength of information coupled coherence to characteristic frequency. The same exponent (\beta) is extracted from five domains:
- Human EEG
- Gravitational wave events (LIGO)
- Quantum black hole echo reconstructions
- Condensed matter phonon spectra
- IBM Q superconducting qubits
- Helioseismic Sun-as-a-star velocity data (BiSON)
The full, reproducible pipeline is archived separately (for Zenodo and journal submission). This repository only exposes the structure and naming of key scripts, together with a restrictive license, to establish priority and provide a stable reference for citation.
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paper/- Placeholders for the main manuscript and the Supplementary Information
as PDFs. Add your own files:
A_Universal_Coherence_Law.pdfA_Universal_Coherence_Law_SI.pdf
- Placeholders for the main manuscript and the Supplementary Information
as PDFs. Add your own files:
-
src/phase_tools/- Stub scripts that describe the roles of the main analysis tools:
vuh_scaling_law_stub.py
Description of band power versus information correlation extraction in each domain.vuh_universal_scaling_fit_stub.py
Description of the meta fit for the universal exponent (\beta).build_scaling_crossdomain_stub.py
Description of merging all domain results into a cross domain table.ibmq_build_integration_windows_stub.py
Description of IBM Q integration window calculation for Ramsey, Hahn, T1, and CPMG sequences.helio_preprocess_stub.py
Description of Sun-as-a-star time series detrending and bandpass filtering.helio_build_integration_windows_stub.py
Description of sliding window spectral integration for helioseismic bands.
- Stub scripts that describe the roles of the main analysis tools:
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src/data_stub/- Short description of the data layout used in the full analysis, without shipping any real data.
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STUB_NOTICE.md- Clear explanation that this repository is intentionally incomplete and non reproducible by design until after journal publication.
To protect intellectual priority and prevent misuse before peer review is complete, the following are not present in this repository:
- Full Python implementations of the analysis tools.
- Download scripts for external data sets.
- Configuration files, exact random seeds, and environment lock files.
- Any raw data or processed data products.
These will be released after peer review and acceptance or at the author's discretion. Until then, this repository exists only to:
- provide a citable reference,
- show that a concrete, structured pipeline exists,
- and register the scientific priority of the result.
If you wish to cite this work, please use:
Bhasin, A. (2025). A Universal Coherence Law: Frequency–Information Scaling Across Biological, Quantum, Gravitational, Condensed-Matter, and Helioseismic Systems. Bhasin Research Unit for Hyperphysics (BRUH).
Zenodo DOI: 10.5281/zenodo.17609625
For collaboration, reproducibility requests, or early access under confidentiality, please contact:
Ankur Bhasin
Bhasin Research Unit for Hyperphysics (BRUH)
Email: ankur@bhasin.in