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Entropy-Driven Emergent Suppression: From LIGO to the Planck Scale

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  • Stanley, Dustyn

Abstract

We demonstrate that high-energy “fade‑outs” across disparate physical systems—from photon shot‑noise in LIGO to quantum‑gravity corrections in the early universe—obey a single, entropy‑driven suppression principle. By independently fitting the crossover scale E0 in laboratory, astrophysical, and Planck‑scale contexts, and by inverting E0 = √(ħ c s) to compute each system’s mode entropy density s, we show quantitative agreement over ∼19 orders of magnitude in E0. This unifies four rigorous theoretical derivations (analytic continuation, field‑theoretic propagators, Jaynes’ max‑entropy/QFI, geometric/holographic) under one emergent framework, and rules out competing power laws (e.g. 1/E, 1/E^3, 1/E^4) at high confidence.

Suggested Citation

  • Stanley, Dustyn, 2025. "Entropy-Driven Emergent Suppression: From LIGO to the Planck Scale," OSF Preprints qmxpf_v1, Center for Open Science.
    • Handle: RePEc:osf:osfxxx:qmxpf_v1
    DOI: 10.31219/osf.io/qmxpf_v1
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    File URL: https://osf.io/download/6801a2c8d683707060d5694e/
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    1. Stanley, Dustyn, 2025. "Quantum Shot-Noise Suppression: A Case Study of LIGO," OSF Preprints pqeac_v1, Center for Open Science.
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    Cited by:

    1. Stanley, Dustyn, 2025. "Connecting 1/E^2 Suppression Theory to Entropic Gravity: A Comprehensive Technical Integration," OSF Preprints y7c45_v1, Center for Open Science.
    2. Stanley, Dustyn, 2025. "Entropy-Corrected Orbital Mechanics: Suppression-Driven Deviations from Classical Keplerian Motion," OSF Preprints 479pa_v1, Center for Open Science.
    3. Stanley, Dustyn, 2025. "Entropy-Driven Biomedical Ultrasound: A Revolutionary Approach to Cancer Detection," OSF Preprints venws_v1, Center for Open Science.

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    1. Stanley, Dustyn, 2025. "Testing 1/E^2 Suppression from LIGO to the Lab- and Beyond," OSF Preprints 78zcw_v1, Center for Open Science.
    2. Stanley, Dustyn, 2025. "Entropy-Corrected Orbital Mechanics: Suppression-Driven Deviations from Classical Keplerian Motion," OSF Preprints 479pa_v1, Center for Open Science.

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