四个引力常数在核结构中的作用

Mapana Journal of Sciences Pub Date : 2019-01-01 DOI:10.12723/MJS.48.2

U. Seshavatharam, S. Lakshminarayana

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引用次数: 16

摘要

本文试图了解四个引力常数在核结构中的作用，这有助于理解核的基本电荷、强耦合常数、核电荷半径、核子磁矩、核稳定性、核结合能和中子寿命。这三个假定的原子引力常数有助于理解中子-质子的稳定性。电磁和核引力常数在理解质子-电子质量比、玻尔半径和特征原子半径方面起着重要作用。参照弱引力常数，有可能预测静止能量为585 GeV的弱相互作用费米子的存在，称为希格费米子。宇宙学的“暗物质”研究和观测也可以在这个方向上进行。

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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Role of Four Gravitational Constants in Nuclear Structure

This paper attempts to understand the role of the four gravitational constants in the nuclear structure whichhelps in understanding the nuclear elementary charge, the strong coupling constant, nuclear charge radii,nucleon magnetic moments, nuclear stability, nuclear binding energy and Neutron life time. The three assumed atomic gravitational constants help in understanding neutron-proton stability. Electromagnetic and nuclear gravitational constants play a role in understanding proton-electron mass ratio, Bohr radius and characteristic atomic radius. With reference to the weak gravitational constant, it is possible to predict the existence of a weakly interacting fermion of rest energy 585 GeV, called Higg’s fermion. Cosmological ‘dark matter’ research and observations can be carried out in this direction also.

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Mapana Journal of Sciences

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