Emergent Gravity from Quantum Decoherence. A Unified Framework for Spacetime, Particle Physics, and Cosmology

We propose a theory where classical spacetime, dark matter, dark energy, and Standard Model particle masses emerge from quantum decoherence of Planck scale geometries. The framework unifies general relativity, particle physics, and cosmology through a single mechanism grounded in quantum information theory. Key results include - Spacetime classicalization via Lindblad decoherence - Dark matter as residual decoherence effects in modified Einstein equations - Fermion masses generated by entropy dependent Higgs couplings - A natural explanation for the arrow of time Testable predictions for MAQRO, HL LHC, and DECIGO are provided.

本研究提出一套理论，经典时空、暗物质、暗能量与标准模型（Standard Model）粒子质量均衍生自普朗克尺度（Planck scale）几何的量子退相干（quantum decoherence）过程。该理论框架基于量子信息论（quantum information theory）构建，通过单一统一机制将广义相对论（general relativity）、粒子物理学与宇宙学融为一体。核心研究成果包括： - 基于林德布拉德退相干（Lindblad decoherence）实现时空经典化 - 暗物质为修正爱因斯坦方程中残余的退相干效应 - 费米子（fermion）质量由依赖于熵的希格斯（Higgs）耦合机制生成 - 为时间之矢提供了自然解释 本文提供了针对MAQRO、HL LHC与DECIGO的可检验预测。