What question did this study set out to answer?

The aim is to derive the relationship between instanton action and the number of de Sitter horizon microstates.

March 8, 2026Open Access

Statistical Derivation of the Horizon–Instanton Relation in the Geometric Entropy Principle Framework

Key Points

The aim is to derive the relationship between instanton action and the number of de Sitter horizon microstates.
Developed an entropic equilibrium condition on the finite Hilbert space of the horizon.
Applied a holographic cell volume approach based on Bekenstein-Hawking entropy.
Evaluated the instanton moduli space prefactor to confirm it as subleading.
Established the relation S_inst ~ ln N as a structural property of the framework.
Provided an order-of-magnitude estimate for the sigma-model coupling as g² ~ 0.28.

Abstract

This paper establishes the relation between the instanton action and the number of de Sitter horizon microstates, Sᵢnst ~ ln N, which is the central result underlying the energy scale hierarchy in the Geometric Entropy Principle framework. The derivation proceeds through three independent arguments: an entropic equilibrium condition on the finite Hilbert space of the horizon, a holographic cell volume argument derived from the Bekenstein-Hawking entropy, and an evaluation of the instanton moduli space prefactor showing it is subleading. The convergence of all three arguments supports the relation as a structural property of the framework and yields an order-of-magnitude estimate of the sigma-model coupling g² ~ 0. 28.

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Cite This Study

Štěpán Sekanina (Sat,) studied this question.

synapsesocial.com/papers/69ada962bc08abd80d5bca32 https://doi.org/https://doi.org/10.5281/zenodo.18903388

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