English Abstract This paper proposes a unified theoretical framework based on the cosmic energy field substrate hypothesis, aiming to solve five long-standing core puzzles in astrophysics: the intrinsic chaos of multi-body systems, the transcendence of Kepler's equation, the measurement contradiction of the Hubble constant, the nature of dark matter gravity, and the extreme energy origin of fast radio bursts (FRBs). The core of this theory lies in attributing all the aforementioned phenomena to a universal cosmic energy field, where its vibration frequency (f) interacts with matter through a coupling coefficient (), leading to the derivation of the core field equation and the Fq quantum gravity correction formula. Without introducing unknown components such as dark matter or relying on numerical approximations of chaotic systems, this framework provides closed analytical solutions for the five puzzles. All theoretical predictions are verified by authoritative data including SPARC galaxy rotation curves, LIGO gravitational wave events, and high-precision planetary ephemerides, with a core scenario error ≤ 4. 5%. This study offers a novel, falsifiable theoretical paradigm for understanding physical phenomena ranging from microcosmic particles to cosmic scales. 中文摘要 本文提出了一个基于宇宙能量场基底假说的统一理论框架, 旨在解决天体物理学中五个长期悬而未决的核心难题: 多体系统的内在混沌、开普勒方程的超越性、哈勃常数的测量矛盾、暗物质引力的本质以及快速射电暴的极端能量起源。本理论的核心在于, 将上述所有现象归结于一个普适的宇宙能量场, 其震动频率 (f) 与物质通过耦合系数 () 发生相互作用, 并由此推导出核心场公式及Fq量子引力修正公式。该框架无需引入暗物质等未知成分或依赖混沌系统的数值近似, 即为五大难题提供了封闭的解析解。所有理论预测均通过SPARC星系旋转曲线、LIGO引力波事件、高精度行星历表等权威数据验证, 核心场景误差≤4. 5%。本研究为理解从微观粒子到宇宙尺度的物理现象提供了一个全新的、可证伪的理论范式。
Bian Zhenfeng (Thu,) studied this question.