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| Hovedforfatter: | |
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| Format: | Recurso digital |
| Sprog: | |
| Udgivet: |
Zenodo
2026
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| Online adgang: | https://doi.org/10.5281/zenodo.20206851 |
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Indholdsfortegnelse:
- <p>This document is a preliminary draft, providing only an overview of the core hypothesis framework. Some ideas outlined in the introduction have not been included in the current version for the time being.</p> <p>This series comprises three interconnected concept papers that explore fundamental physics from a first-principles perspective.</p> <p>1. Discrete spacetime primitive framework: spatial geometry, emergent gravity, and underlying algebra<br>It is proposed that spacetime is composed of discrete, indivisible primitives (ground state particles). Motion is reinterpreted as continuous transfer of excitation across the grid of primitives. This framework naturally leads to the conclusion that the speed of light serves as an upper limit, explains dark matter as the accumulation of spatial primitives, and identifies dark energy as the elastic tension of the primitive lattice.</p> <p>2. Information-Energy Dual Dynamics within the Framework of Discrete Fundamentals: Redefining the Origin of Inertia and the Universal Principle of "Resistance to Change"<br>A closed-loop system is introduced, where information changes drive energy flow, which in turn modifies the information. Inertia is understood as the cost required to reconfigure the elementary excitation modes. The study further interprets classical phenomena (Lenz's law, the second law of thermodynamics, etc.) as manifestations of this duality.</p> <p>3. First-person ontology under the many-worlds interpretation: observer weight, five-world topological structure, and two-stage probability model<br>Based on the many-worlds interpretation, this article categorizes parallel universes into five types (with the fifth world resulting in heat death as a "paradoxical superposition").</p> <p>These three papers collectively attempt to construct a unified conceptual foundation for space-time, motion, information, energy, consciousness, and the role of observers in reality.</p> <p>本文件为初稿,仅概述了核心假设框架。引言中提出的一些想法目前尚未纳入当前版本。</p> <p>本系列由三篇相互关联的概念论文组成,从第一性原理的角度探讨基础物理学。</p> <p>1. 离散时空基元框架:空间几何、涌现引力和底层代数。该框架提出,时空由离散的、不可分割的基元(基态粒子)组成。运动被重新解释为激发在基元网格上的连续传递。这一框架自然地得出结论:光速是一个上限,将暗物质解释为空间基元的累积,并将暗能量识别为基元晶格的弹性张力。</p> <p>2. 离散基本原理框架下的信息-能量双重动力学:重新定义惯性的起源和“抗拒改变”的普遍原理 引入了一个闭环系统,其中信息变化驱动能量流动,而能量流动又反过来修改信息。惯性被理解为重新配置基本激发模式所需的成本。该研究进一步将经典现象(楞次定律、热力学第二定律等)解释为这种双重性的表现。</p> <p>3. 多世界诠释下的第一人称本体论:观测者权重、五世界拓扑结构与两阶段概率模型 基于多世界诠释,本文将平行宇宙分为五类(第五类世界以热死作为“悖论叠加”)。</p> <p>这三篇论文共同试图为时空、运动、信息、能量、意识以及观察者在现实中的作用构建一个统一的概念基础。</p>