Traditional quantum field theory defines zero-point energy (ZPE) as the ground state intrinsic energy of the quantum vacuum. However, it suffers from fundamental bottlenecks such as source ambiguity, infinite energy divergence, and the impossibility of controllable extraction, which have long restricted the engineering application of vacuum energy. Grounded upon the core laws of Yuanxian Theory (YXT)—Cosmic Factor Conservation (FSC), Spacetime Uniqueness (STM), and True-Circle Self-Consistency (TCSC)—and integrated with the T64 sixty-four-dimensional compact flat toroidal topology and the self-referential dynamical framework, this paper reconstructs the cosmic source logic of zero-point energy, breaking through the cognitive constraints of legacy low-dimensional physics. This research confirms that zero-point energy is not a mere byproduct of local quantum fluctuations, but rather the manifest expression of the invariant cosmic ground-state factor via dimensional collapse, serving as the foundational energy vector for the self-consistent operation of the universe. We construct the Yuanxian Zero-Point Energy Dimensional Transformation Model, elucidating the mechanism by which high-dimensional topological potential energy transforms into harvestable energy in three-dimensional space. Furthermore, we propose a technological blueprint for the controllable collection, rectification, and storage of zero-point energy based on the True-Circle Self-Consistency metric, solving the core pain points of disorder and unregistrability in traditional frameworks. The results provide a brand-new theoretical cornerstone and an engineering pathway for the deep exploitation of vacuum zero-point energy and the construction of next-generation clean energy systems. 传统量子场论将零点能定义为量子真空的基态本征能,但其存在本源模糊、能量发散、无法可控提取等核心难题,始终制约着零点能的工程化应用。本文基于元宪理论的宇宙因素守恒(FSC)、时空唯一性(STM)、真圆自洽性(TCSC)核心规律,结合 T64 六十四维紧致环面拓扑结构与自指动力学体系,重构零点能的宇宙本源逻辑,打破低维物理框架的认知桎梏。 研究证实,零点能并非单纯量子涨落的附属能量,而是宇宙元基底恒定因子的维度坍缩显化形式,是宇宙自洽运行的基础能量载体。本文构建元宪零点能维度转换模型,阐释高维拓扑势能向三维空间可利用能量的转化机制,提出基于真圆自洽准则的零点能可控采集、整流、储能方案,解决了传统理论中零点能无序、不可控、难利用的核心痛点。研究结果可为真空零点能的深度开发、新型清洁能源体系构建提供全新的理论支撑与技术路径。
Zhenyuan Acharya (Mon,) studied this question.
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