Relativistic Theory of Superluminal Particles
首发时间:2011-12-02
Abstract:Since some experiments have found superluminality, we assume that the particles in the universe are divided into three classes: the subluminal, luminal and superluminal particles by the speed of light, their energy-momenum relations are E2 = m2c4 + c2p2, E2 = c2p2, and E2 + m2c4 = c2p2, respectively. The Einstein's theory of relativity still holds and is consummated by the existence of superluminal particles, and the Lorentz symmetry of the spacetime is also not violated. There should have two sets of inertial reference systems: subluminal and superluminal reference systems. Two inertial reference systems in each set are linked by Lorentz transformations, but superluminal coordinate transformations between the two sets do not exist in the 1+3 dimensional spacetime. So the physical laws have different expressions in the two sets of inertial reference systems, the principle of special relativity should be revised.
keywords: Superliminal particle Energy momentum relation Superluinal coordinate transformation Principle of relativity Neutrino
点击查看论文中文信息
超光速粒子的相对论
摘要:因为一些实验发现了超光速现象, 我们假定宇宙中粒子被光速划分为三类: 亚光速, 光速与超光速粒子, 其能量动量关系分别为E2 = m2c4 + c2p2, E2 = c2p2与E2 + m2c4 = c2p2. 爱因斯坦相对论依然成立, 并且被超光速粒子的存在补充完整, 粒子的洛伦兹对称性也不被破坏。应该有两类惯性参考系, 亚光速与超光速参考系。在每类中的惯性参考系之间由洛伦兹变换相联系, 两类参考系之间的超光速坐标变换在1+3维时空中不存在。因此物理定律在两类参考系中有不同的表达, 相对性原理需要做修正。
基金:
论文图表:
引用
No.****
同行评议
勘误表
超光速粒子的相对论
评论
全部评论0/1000