Understanding the Origins of Quark Charges, Quantum of Magnetic Flux, Planck’s Radiation Constant and Celestial Magnetic Moments with the 4G Model of Nuclear Charge

Current Physics Pub Date : 2024-05-09 DOI:10.2174/0127723348291145240427074503

U. Seshavatharam, S. Lakshminarayana

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Abstract

In our previous published papers, considering 3 large atomic gravitational constants assumed to be associated with weak, strong and electromagnetic interactions, we have proposed the existence of a nuclear charge of magnitude, en=2.95e and developed a nuclear mass formula associated with strong and weak interactions having 4 simple terms and only one energy coefficient. Two important assumptions are that there exists a weak fermion of rest energy 585 GeV and a strong coupling constant is the squared ratio of electromagnetic charge and nuclear charge. The aim of this paper is associated with understanding the mystery of the quantum of magnetic flux, Planck’s quantum radiation constant and Reduced Planck’s constant. Proceeding further, quark charges, strong coupling constant, nuclear stability, nuclear binding energy, medium and heavy atomic X-ray levels and celestial magnetic moments can be understood in a unified approach. It may also be noted that, by considering the integral nature of elementary particle masses, it seems possible to understand the discreteness of angular momentum. Considering our proposed en=2.95e as a characteristic nuclear charge, it seems possible to understand the integral nature of quarks electromagnetic charge. With this idea, neutron, proton and pions decay can be understood very easily. In all the cases, up quark of charge seems to play a crucial role in final decay. Considering our proposed en=2.95e=3e as a characteristic nuclear charge, it seems possible to understand the integral nature of quarks electromagnetic charge. With this idea, neutron, proton and pion decay can be understood very easily. In all the cases, the up quark of charge (±2e) seems to play a crucial role in the internal transformation of the down quark of charge (±e) and external observable elementary basic elementary particles. It needs further study at the fundamental level.

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利用核电荷 4G 模型了解夸克电荷、磁通量量子、普朗克辐射常数和天体磁矩的起源

在我们以前发表的论文中，考虑到假定与弱、强和电磁相互作用相关的 3 个大原子引力常数，我们提出了核电荷量级 en=2.95e 的存在，并建立了与强和弱相互作用相关的核质量公式，其中有 4 个简单项，只有一个能量系数。两个重要的假设是：存在一个静态能量为 585 GeV 的弱费米子，强耦合常数是电磁电荷与核电荷的平方比。本文的目的是理解磁通量子、普朗克量子辐射常数和还原普朗克常数的奥秘。此外，考虑到基本粒子质量的积分性，似乎可以理解角动量的离散性。考虑到我们提出的 en=2.95e 作为特征核电荷，似乎可以理解夸克电磁电荷的积分性。有了这个想法，中子、质子和小离子衰变就很容易理解了。考虑到我们提出的 en=2.95e=3e 作为特征核电荷，似乎可以理解夸克电磁电荷的整体性。在所有情况下，上夸克电荷（±2e）似乎在下夸克电荷（±e）的内部转化和外部可观测的基本基本粒子中起着至关重要的作用。这需要在基础层面上进一步研究。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Current Physics

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