依赖于弱相互作用的银河系重子质量的超引力

Asian Journal of Scientific Research Pub Date : 2022-10-14 DOI:10.55493/5003.v12i3.4627

U. Seshavatharam, S. Lakshminarayana

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引用次数: 1

摘要

考虑到我们光速增长的普朗克尺度宇宙，似乎有可能建立一个实用的哈勃-霍金宇宙模型，利用该模型可以准确地关联宇宙温度和哈勃参数。在不考虑星系暗物质的情况下，星系的平旋转速度可以用星系重子质量的“超引力”来解决。在这种情况下，(1.8到2亿)亿个太阳质量可以被认为是普通引力的特征质量上限。考虑到目前提出的普通引力的质量上限作为一个特征性的弱相互作用质量单位，假设的星系暗物质可以被量化。显然，弱相互作用增强了星系的引力，与它们的虚拟暗质量成比例，为(星系重子质量)3/2 /(2亿个太阳质量)1/2。根据宇宙复合温度和重子声泡半径，也可以拟合重力的质量上限。通过进一步的研究，可以探索暗物质的存在及其物理性质。

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Weak Interaction Dependent Super Gravity of Galactic Baryon Mass

Considering our light speed growing Planck scale universe, it seems possible to develop a practical model of Hubble-Hawking Universe by using which cosmic temperature and Hubble parameter can be correlated accurately. Without considering galactic dark matter, galactic flat rotation speeds can be addressed with ‘super gravity’ of galactic baryonic mass. In this context, (180 to 200) million solar masses can be considered as a characteristic upper mass limit of ordinary gravity. Considering the proposed current upper mass limit of ordinary gravity as a characteristic weak interaction mass unit, hypothecated galactic dark matter can be quantified. Clearly speaking, weak interaction boosts the gravity of galaxies in proportion to their virtual dark mass as (galactic baryonic mass)3/2 / (200 million solar masses)1/2. Based on cosmic recombination temperature and baryon acoustic bubble radius, upper mass limit of gravity can also be fitted. With further study, dark matter existence and physical properties can be explored.

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来源期刊

Asian Journal of Scientific Research

CiteScore

0.40

自引率

0.00%

发文量