标题:
G超统一论—G引力规范理论The G Super Unified Theory—The G Gauge Theory of Gravitation
作者:
关屹瀛, 关天钰
关键字:
G超统一, G超对称, 二十维时空, 宇宙相变, 宇宙破缺, 复时空G Superunification, G Supersymmetry, Twenty-Dimensional Time-Space, Cosmic Phase Change, Universe Break, Complex Time-Space
期刊名称:
《Modern Physics》, Vol.6 No.3, 2016-05-05
摘要:
本文提出G超统一群及粒子,揭示时空的起源。其直积群表示为U(1) XSU(2) XSU(3) XU(4),也可用单群U(20)表示。该文指出:随着宇宙温度的逐渐降低,宇宙第一次破缺,生成了U(4) XU(5)群,此时引力分离出来,用U(4) (G粒子) (引力时空)群表示。之后,引力破缺成轻子和夸克群,即U(2) XU(2)。轻子和夸克群相互作用生成了我们现在的三维反对称空间和一维全对称时间;宇宙第二次破缺时,强相互作用分离出来,第三次破缺,弱作用分离出来,剩余的一维U(1)群,形成了电磁相互作用,即SU(3) XSU(2) XU(1)。
This thesis puts forth G super-unified group and particle, and reveals the source for space and time. The direct product group is expressed as U(1) XSU(2) XSU(3) XU(4) which can also be expressed as single group U(20). This thesis points out that: with the gradual fall of temperature of the universe, the universe will break for the first time and generate U(4) XU(5) group to cause gravity separation expressed as U(4) (G particle) (gravity space-time) group. Afterwards, the gravity will break into lepton and quark group, i.e. U(2) XU(2). The interaction of lepton and quark group will generate the present three-dimensional antisymmetric space and one-dimensional full symmetric time. When the universe breaks for the second time, the strong interaction is separated. When it breaks for the third time, weak interaction is separated; the remaining one-dimensional U(1) group will form electromagnetic interaction, i.e. SU(3) XSU(2) XU(1).