摘要
本文应用相对论性牛顿万有引力定律和非黎曼几何的传统力学分析方法,对当代天体物理中一系列根本性问题(1.恒星、星系生死循环演化的基本规律和内部结构;2.第一类黑洞的基本极限物理特性;3.大尺度天体层次结构演化的基本规律;4.总星系的结构——双饱和稳定临界黑洞——第二类黑洞;5.宇宙的结构;6.大爆炸标准宇宙模型的真伪性)作了较系统深入的探索研究,得到了一系列很有意义的新结果.
In this paper, with the traditionally dynamical method of relativistic universal gravitation law and non-Riemannian geometry, a series of fundamental problems of modern astrophysics are studied systematically and deeply. These problems are: 1.the fundamental law of llfe evolution and inner structure of star or galaxy;2, the extreme physical characteristics of the first class black hole; 3.the fundamental law of large-scale astronomical architectural evolution;4.the architecture of meta-galaxy-dual saturated black hole with stable critical state-the second class black hole; 5. the architecture of the universe:6.the decision problem of standard cosmic model in the Big Bang. Finally, a series of meaningful ressuhs are achieved.
出处
《邵阳学院学报(自然科学版)》
2007年第2期33-43,共11页
Journal of Shaoyang University:Natural Science Edition
关键词
光速最大原理
黑洞
超流效应
饱和效应
双饱和稳定临界黑洞
第二类黑洞
星系分布周期性
The law maximum light velocity
black hole
hyperfluid effect of Ideal fluid
saturation effect
double-saturation stably critical black hole
the second class of black hold
periodicity of galaxy distribution
