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Zenodo
2026
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| Acceso en línea: | https://doi.org/10.5281/zenodo.20131035 |
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- <p>Abstract</p> <p> </p> <p>Aiming at the deep dilemmas in modern physics, including ambiguous cognition of vacuum essence, isolated definition of photon and particle mass, inverted causality between temperature and microscopic vibration, ad-hoc assumptions of dark matter and dark energy, failed unification of quantum gravity, and incomplete particle generation and annihilation mechanisms, this paper starts from the essential analysis of photon rest mass and dynamic mass to reconstruct the underlying definition of mass. It establishes the unique underlying reality of the universe as a global ultra-low frequency vibrating hidden energy microelement field, and constructs four basic axiom systems with vibration frequency, phase synchronization, and energy self-sustaining condensation as core pivots. The physical essences of mass, temperature, inertia, and gravity are redefined, and the bidirectional and complete causality of temperature and microscopic vibration (internal intrinsic setting the tone and external environment acting as traction) is clarified. Two core theorems, the Three-Temperature Theorem and Particle-Temperature One-to-One Mapping Theorem, are originally constructed to define the critical temperature boundaries of particle cold collapse and thermal decomposition, and establish a mapping relationship of particle-specific physical behaviors in the full temperature range. Abandoning artificial hypotheses of dark matter and dark energy, this model uses the equivalent gravity of vacuum sub-excitation state and the intrinsic repulsive tension of the background to uniformly explain galactic gravitational anomalies and cosmic expansion. Based on the synergistic mechanism of external cooling traction and internal intrinsic temperature range boundaries, it consistently interprets observed phenomena difficult to explain by mainstream theories, such as superconducting phase transition, Bose-Einstein condensation, superfluidity, and hostless gamma-ray bursts. After completing the qualitative logical closed-loop, this paper further establishes two quantitative research routes: the fundamental particle spectrum and the superconductor material spectrum. Quantitative fitting of critical temperature and Debye temperature for 26 elemental superconductors verifies the core prediction T_c \propto \Theta_D (R^2 = 0.71, p<0.001), and the gap data of iron-based high-temperature superconductors (T^*/T_c\approx1.40) serves as an independent verification of the pre-cold collapse interval. The core picture of this paper can be summarized in one sentence: starting from "nothing" (the lowest energy field), the universe generates particles through local excitation, and particles condense to form all things; high temperature disintegrates matter back to its origin, and low temperature also causes collapse and dissociation. Every particle is born with its own temperature birthmark; temperature is not an external parameter but a reading of particle vibration frequency. The temperature of vacuum directly marks whether particles exist in that region. The origin of the universe—the pure vacuum background—can never be directly detected, because any measurement behavior disturbs and changes it. This is not a technical limitation but a physical principle. The full text is logically self-consistent and structurally complete, forming a complete original paradigm from underlying physical carrier, basic concept definition, theorem system, phenomenon interpretation to quantitative demonstration, providing a brand-new theoretical framework for the study of the fundamental laws of the universe.</p> <p> </p> <p>摘要</p> <p> </p> <p>针对现代物理学在真空本质认知模糊、光子与粒子质量定义割裂、温度与微观振动因果倒置、暗物质-暗能量特设假设、量子引力无法统一、粒子生灭机制残缺等深层困境,本文以光子静质量与动质量的本质辨析为思想起点,重构质量底层定义;确立宇宙唯一底层实在为全域极低频振动隐态能量微元场,以振动频率、相位同步、能量自持凝聚为核心支点,建立四大基础公理体系。重新定义质量、温度、惯性、引力的物理本源,厘清温度与微观振动内因本征定基调、外因环境做牵引的双向完备因果;原创构建三温定理与粒子–温度一一映射定理双核心定理,划定粒子冷崩、热解生死温度边界,建立全温区粒子专属物理表现映射关系。摒弃暗物质、暗能量人为假想,以真空亚激发态等效引力、本底内禀排斥张力,统一解释星系引力异常与宇宙膨胀;以外因降温牵引叠加内因本征温区边界协同机制,自洽阐释超导相变、玻色-爱因斯坦凝聚、超流、无宿主伽马射线暴等主流理论难以解释的观测现象。理论完成定性逻辑闭环后,进一步确立基础粒子谱系、超导材料谱系两大量化研究主线。完成26种元素超导体临界温度与德拜温度的量化拟合,验证 T_c \propto \Theta_D 的核心预测(R^2 = 0.71,p<0.001),并以铁基高温超导体的能隙数据(T^*/T_c\approx1.40)作为冷崩前置区间的独立验证。本文的核心图景可一句话概括:宇宙从“无”(最低能量场)开始,局部激发诞生粒子,粒子抱团形成万物;高温使物质解体回归本源,低温同样导致冷崩解体。每一种粒子诞生时就携带着属于它的温度胎记,温度不是外加参数,而是粒子振动频率的读数。真空的温度,直接标志该区域是否有粒子存在。而宇宙的本源——纯态真空本底——永远无法被直接探测,因为测量行为本身会扰动它、改变它。这不是技术局限,而是物理原理。全文逻辑自洽、结构完整,从底层物理载体、基础概念定义、定理体系、现象解释到量化实证形成完备原创范式,为宇宙底层基础物理规律研究提供全新理论框架。</p>