Authors: Hu Chang-Wei
真空不空，奥妙无穷。称真空态物质为以太，它好比Smarandache教授所说的Unmatter 或Unparticles。说明和探讨了以太的宏观效应，微观表现和宇观作用。绝对时空是最基本的时空，在这里，以太是可压缩的超流体，如果以太均匀分布，就没有实物粒子，因为，实物的质心是以太密度的极大值点。以太密度的变化，会引起现实的时空标准的变化，从而导致了定量效应，这包括相对论性效应和量子效应等等。相对论是以光作为时空衡量标准的一种定量描述理论，在这里，以太的分布永远是处处均匀，各向一致的，这就是所谓的洛伦兹对称性，它只是一种可行的数学模型，对超光速是无效的。引力场是以太密度波包，它的作用不是无限的。在星系、星系团的世界里，以太的宇观作用，将超过并达到引力作用的10倍左右。因此，不能只用引力场方程来描述宇宙。书中运用了Smarandache教授提出的方法论和有关概念，描绘了相对论、宏观物理学、区间场论和无穷阶等级式宇宙学的Smarandache几何模型。 The vacuum is not void, there is infinite mysteries in it. The matter in vacuum state is called the ether, which is like the unmatter or unparticles called by Prof. Smarandache. Its macroscopic effects, microscopic representation and mucroscopic interaction are explained and researched. The absolute space-time theory is a most basic space-time theory, where the ether is a compressible superfluid, it is without a real particle if the distribution of ether is homogeneous because a mass center is the point of maximal value of the ether density. A change in the ether density causes a change in the actual space-time standard, and thus leads up to quantitative effects, which include the effects of relativity and quantum etc.. The relativity is a theory of quantitative description, where the distribution of ether is always homogeneous and isotropic everywhere, which is just so-called Lorentz symmetry, and it is only a practicable mathematical model, it is not applicable to faster than light velocity. The gravitational field is a ether density wave-packet, whose interaction is not infinite. The mucroscopic interaction of ether will surpass gravitational interaction and is about ten time of it, so that describing cosmos can not use only the gravitational field equation. The methodology and related concepts proposed by Prof. Smarandache are applied, and Smarandache geometry models of relativity, macro-physics, interval field theory and infinite order and hierarchical cosmology are described in this book.
Comments: 113 Pages.
[v1] 2012-02-27 12:12:06
Unique-IP document downloads: 112 times
Vixra.org is a pre-print repository rather than a journal. Articles hosted may not yet have been verified by peer-review and should be treated as preliminary. In particular, anything that appears to include financial or legal advice or proposed medical treatments should be treated with due caution. Vixra.org will not be responsible for any consequences of actions that result from any form of use of any documents on this website.
Add your own feedback and questions here:
You are equally welcome to be positive or negative about any paper but please be polite. If you are being critical you must mention at least one specific error, otherwise your comment will be deleted as unhelpful.