摘要
基于玻尔兹曼公式以及克莱修斯公式,推导出二维空间时间间隔与三维空间时间间隔的关系,由此解释了普朗克的能量子假设以及爱因斯坦光量子方程。研究表明,空间的熵效应(或空间混乱度)与空间中的时间间隔在本质上是等价的。通过对狭义相对论在边界问题上的量子化,揭示了暗物质的成因。讨论了狭义相对论中时间相对性的物理机制,以及狭义相对论光速不变性的物理机制。文中在理论上论证了光子的频率变化是量子化的。
Based on Boltzmann equation and Clausius equation,the relationship between the 2 Dtime interval and 3 Dtime interval is derived to explain the Planck's energy quantum hypothesis and Einstein's light-quantum equation.The study indicates that the entropy effect in space(or degree of space energy quantum confusion)is essentially equivalent to the time interval in space.By quantizing the boundary with special relativity,we can explain the cause of the dark matter,the mechanism of time interval relative property in special relativity,and mechanism of the light-speed constant principle.The frequency variation of light-quantum is quantized theoretically.
作者
钱凤仪
QIAN Fengyi(Graduate School,Jilin University,Changchun 130012,China)
出处
《长春工业大学学报》
CAS
2018年第2期204-208,共5页
Journal of Changchun University of Technology
关键词
谐振子
黑体
量子化
光子最小质量
时间间隔
暗物质
harmonic oscillator
blackbody
quantization
photon minimum mass
time interval
darkmatter
