Emergent Physical Laws from Hierarchical Information Propagation
Boundary Projection, Inflation, and Black Hole Dynamics Across Hierarchical Layers
DOI:
https://doi.org/10.51094/jxiv.2556キーワード:
Hierarchical information propagation、 emergent physical laws、 information coarse-graining、 quantum-classical transition、 gravity as emergent phenomenon抄録
We propose the Hierarchical Information Propagation Model (HIPM) as a minimal theoretical framework in which physical laws and constants emerge from structured information propagation across hierarchical domains.
Rather than postulating fundamental constants or microscopic dynamics, HIPM introduces a small set of variables governing state, propagation, normalization, and hierarchy.
We show that distinct physical regimes naturally arise as robust domains of information behavior, characterized by transitions in fluctuation, reversibility, and coarse-graining.
Within this framework, quantities traditionally regarded as fundamental constants are reinterpreted as effective constraints associated with specific hierarchical domains.
This approach provides a unified information-theoretic perspective on quantum, classical, and gravitational phenomena, while remaining independent of any specific microscopic realization.
The results suggest that the observed universality of physical laws reflects the stability of hierarchical information structure rather than the existence of absolute fundamental scales.
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The author declares no conflicts of interest associated with this study.ダウンロード *前日までの集計結果を表示します
引用文献
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投稿日時: 2026-01-11 10:54:50 UTC
公開日時: 2026-02-04 02:31:56 UTC
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Copyright(c)2026
Sasaki, Yuji
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