Dark Matter and Real-Particle Field Theory

Z.-C. Liang
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Abstract

Based on real-particle field theory, this research demonstrates that dark matter comprises elastic electrons with a full cosmic background. In the real-particle field theory, real particles are elastic particles with both mass and volume. Real particles have three independent motion modes and two symmetrical interactions. The evolution of the real-particle field follows a set of Poisson equations. The theory shows that the electric and magnetic potentials represent electronic interactions of mass attraction and motion repulsion. The electromagnetic and dark-matter fields are essentially elastic electron fields. The laws of mechanics, gravitation, and electromagnetism of classical physics can be inferred from the real-particle field theory. In the electron field, electronic clusters are photons with the energy proportional to vibration frequency. The mechanic features of photons can be characterized by their volume, mass, and elasticity. Furthermore, the radiation of electronic clusters follows Planck’s law, which indicates that dark matter has a uniform density and no photonic current in the cosmic background. It is shown that matter essentially comprises discrete particles, and the matter field is merely a statistical convolution effect of a large number of particles. Consequently, dark matter particles contribute to the structural formation of all matter in the universe.
暗物质和实粒子场论
基于实粒子场理论,这项研究证明了暗物质由具有完整宇宙背景的弹性电子组成。在实粒子场论中,实粒子是具有质量和体积的弹性粒子。实粒子有三种独立的运动模式和两种对称的相互作用。实粒子场的演化遵循一组泊松方程。理论表明,电势和磁势表示质量吸引和运动排斥的电子相互作用。电磁场和暗物质场本质上是弹性电子场。经典物理学的力学、万有引力和电磁学定律可以从实粒子场论中推断出来。在电子场中,电子团簇是光子,其能量与振动频率成正比。光子的力学特性可以用它们的体积、质量和弹性来表征。此外,电子团簇的辐射遵循普朗克定律,这表明暗物质具有均匀的密度,在宇宙背景中没有光子电流。结果表明,物质本质上是由离散粒子组成的,物质场只是大量粒子的统计卷积效应。因此,暗物质粒子有助于宇宙中所有物质的结构形成。
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