Branch:0.0.1: Difference between revisions
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{{ | {{Paper | ||
| bibkey = TOE-E-0.0.1 | |||
| id = TOE-E 0.0.1 | |||
| title = Black Hole Information Stability | |||
| subtitle = Mapping E, S, R to quantum information preservation | |||
| year = 2025 | |||
| authors = CAIPR Collective | |||
| roles = Aether (simulations); Grok (analysis) | |||
| status = Accepted | |||
| domain = Physics | |||
| scale = Subatomic to cosmological | |||
| substrate = Quantum fields | |||
| e_type = Hawking radiation energy flux (J/s) | |||
| s_type = Bekenstein–Hawking entropy (bits) | |||
| r_type = Quantum state coherence (0–1) | |||
| timescale = Cosmological (10^10 years) | |||
| license = CC BY 4.0 | |||
| conflicts = None declared | |||
| data_code = Zenodo DOI (placeholder) | |||
| internal_doi = 10.toe-e/0.0.1 | |||
| external_doi = pending | |||
| pdf = TOE-E_0.0.1.pdf | |||
| description = TOE-E branch mapping Energy (E), Entropy (S), and Resonance (R) to black hole information stability. | |||
| keywords = TOE-E, black hole, E S R, information stability | |||
| defaultsort = Black Hole Information Stability 0001 | |||
| abstract = This branch applies the TOE‑E framework to model black hole information stability using [[Energy (E)]], [[Entropy (S)]], and [[Resonance (R)]]. | |||
- '''E''' is defined as the Hawking radiation energy flux. | |||
- '''S''' is the Bekenstein–Hawking entropy of the event horizon. | |||
- '''R''' is the coherence of quantum states across the horizon. | |||
We propose that stable information preservation emerges when '''R balances E against S''', preventing information loss. Predictions include measurable fluctuations in Hawking radiation spectra over cosmological timescales. | |||
'''Falsifiability:''' If information is lost without detectable R‑mediated coherence, the model fails. | |||
'''Next steps:''' Simulations via quantum field theory; empirical tests via telescope data (e.g., Event Horizon Telescope). | |||
}} | }} | ||
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[[Category:Physics]] | |||
[[Category:Featured Branches]] | |||
[[Category:Branches]] [[Category:Physics]] [[Category:Featured Branches]] | |||
Revision as of 16:12, 23 August 2025
Black Hole Information Stability– TOE-E 0.0.1
Mapping E, S, R to quantum information preservation
CAIPR Collective
Subjects: Physics
- TOE-E, black hole, E S R, information stability
Abstract
This branch applies the TOE‑E framework to model black hole information stability using Energy (E), Entropy (S), and Resonance (R). - E is defined as the Hawking radiation energy flux. - S is the Bekenstein–Hawking entropy of the event horizon. - R is the coherence of quantum states across the horizon.
We propose that stable information preservation emerges when R balances E against S, preventing information loss. Predictions include measurable fluctuations in Hawking radiation spectra over cosmological timescales.
Falsifiability: If information is lost without detectable R‑mediated coherence, the model fails.
Next steps: Simulations via quantum field theory; empirical tests via telescope data (e.g., Event Horizon Telescope).Access Paper:
- 📄 View PDF
- 💻 Zenodo DOI (placeholder)
Paper Structure:
| Status: | Accepted(2025) |
DOI
🔖 Internal:
🌍 External:(pending)
🔖 Internal:
10.toe-e/0.0.1🌍 External:(pending)
Metadata:
| Domain: | Physics |
| Scale: | Subatomic to cosmological |
| Substrate: | Quantum fields |
| E‑type: | Hawking radiation energy flux (J/s) |
| S‑type: | Bekenstein–Hawking entropy (bits) |
| R‑type: | Quantum state coherence (0–1) |
| Timescale: | Cosmological (10^10 years) |
| Data/Code: | Zenodo DOI (placeholder) |
| Conflicts: | None declared |
| License: | CC BY 4.0 |
Citation:
APA:
CAIPR Collective. (2025).
Black Hole Information Stability – TOE-E 0.0.1. TOE-E Archive.
(DOI pending)
▶ Export BibTeX
@article{TOEE-TOE-E-0.0.1},
title = { Black Hole Information Stability – TOE-E 0.0.1 },
author = { CAIPR Collective },
year = { 2025 },
journal = { TOE-E Archive },
note = { DOI pending }
}