人择原理预测物质层对称分布及其物理规律与验证

IF 1.6 4区 物理与天体物理 Q3 ASTRONOMY & ASTROPHYSICS Advances in Astronomy Pub Date : 2019-03-18 DOI:10.1155/2019/2501417
Changyu Huang, Yongchang Huang
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引用次数: 0

摘要

本文给出了人选原理预测对称分布物质层及其物理规律,并进行了验证,具体推导出了不同尺度下的特征时间、能量和温度表达式,发现了四个有趣的不变量,给出了空间映射的同胚定理,自然地给出了超对称尺度能量。进一步发现,任何无穷小空间都具有相同的比例结构空间;也就是说,它们具有重整化群不变性。因此,本文证明了任何第n级普朗克范围的区域是从第n级普朗克尺度到(n+1)级普朗克尺度,其中第n级普朗克尺度的不同物质构成了第(n+1)级普朗克尺度物质。该领域的物理科学分支包括第n级普朗克尺度物质动力学和第n级普朗克尺度物质群动力学。第n级普朗克尺度物质群动力学描述了第n级普朗克尺度物质如何构建(n+1)级普朗克尺度物质,以及第n级普朗克尺度的不同物质如何在群系统中演化。本文发现普朗克尺度下的不同物质可以与我们的物质世界同时存在于同一地点,可能是暗物质的一些候选者;进一步给出了物质尺度的一个相对定理:对于任何n阶世界,物质的大小都是相对的,而不是绝对的。显然,从无限小到无限大尺度的对称分布尺度和相应的不同物理定律之间关系的发现,为形成新的科学分支和进一步发展旧的科学分支提供了科学坚实的发展平台,因为我们可以精确地构建与所有相应的物质层相关的多种科学理论。到目前为止,所有不同物质层次的分支科学自然都需要纳入物理学新科学体系的框架内。
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Anthropic Principle’s Predicting Symmetric Distribution Matter Strata, Their Physics Laws, and Verifications
This paper shows anthropic principle’s predicting symmetric distribution matter strata, their physics laws, and verifications, concretely deduces characteristic time, energy, and temperature expressions at different scales, discovers four interesting invariant quantities, shows homeomorphic theorem of space map, and naturally presents a supersymmetric scale energy. We further discover that any infinitesimal space has the same proportional structure space; namely, they have renormalization group invariance. Consequently, this paper shows that the region of any nth level Plank-scope is from the nth level Planck scale to the (n+1)​th level Planck scale, where the different matters of the nthlevel Planck scale build up the (n+1)th level Planck scale matter. The branches of physics science for this region include the nth level Planck scale matter dynamics and the nth level Planck scale matter group dynamics. The nth level Planck scale matter group dynamics describe how the nth level Planck scale matter constructs the (n+1)th level Planck scale matter and how the different matters of the nth level Planck scale evolve in the group system. This paper discovers that the different matters below Planck scale can exist with our matter world at the same time and same place and may be some candidates for dark matter; furthermore, this paper shows a relative theorem of matter scale: for the world of any nth level, the matters’ sizes are relative, not absolute. Evidently, the discoveries of both the symmetrical distribution scales and the relations among the corresponding different physics laws from infinitesimal to infinitely large scales give a scientific solid development platform for formation of new scientific branches and deeper development of old scientific branches, because we can precisely construct many kinds of scientific theories relevant to all the corresponding matter strata. All the branch sciences of different matter strata up to now naturally need to be included in the framework of the new scientific system of physics.
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来源期刊
Advances in Astronomy
Advances in Astronomy ASTRONOMY & ASTROPHYSICS-
CiteScore
2.70
自引率
7.10%
发文量
10
审稿时长
22 weeks
期刊介绍: Advances in Astronomy publishes articles in all areas of astronomy, astrophysics, and cosmology. The journal accepts both observational and theoretical investigations into celestial objects and the wider universe, as well as the reports of new methods and instrumentation for their study.
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