Based on the high-speed electronic energy convergence phenomena to put forward the electro-ultimate particles
首发时间:2013-12-24
Abstract:In allusion to the high-speed electronic energy convergence phenomena, according to the relevant electromagnetic theory as well as the mass-energy and kinetic energy equation of Einstein's special relativity, the study concluded that a moving electronic charge would follow along with its static mass synchronously to be lost. Since an electron can be further broken down, then there should be a kind of more fundamental particles to compose, which can be referred to as "electro-base particles". It should be the electro-ultimate particles whose charge-mass ratio is equal to that of electronic physical constants. A corollary is that all photons radiating from the electrons in a storage ring are composed of the electro-base particles. Then based on de Broglie's matter wave concept, it is pointed out that the high-speed particles' energy convergence effect should be the primary factor in causing spectral redshift. Finally, using HLS 800MeV electron storage ring as an example, we have calculated the moving speed of electrons, and estimated the approximate ranges of the wavelength and static mass. And further, by the aid of a well known experimental fact in the industry but it seems to have been neglected, based on the Law of Energy Conservation, in allusion to the radiated photon whose characteristic wavelength is 2.427 (nm), we have calculated the moving speed and static mass, as well as the deflection radius in the magnetic field. Moreover, to verify whether the above arguments are set up, this paper introduces a method about measuring the wavelength value of electrons in a storage ring.
keywords: special relativity energy convergence spectral redshift electro-base particles static mass charge-mass ratio
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依据高速电子能量收敛现象提出电的终极粒子
摘要:针对高速电子的能量收敛现象, 依据相关的电磁理论以及狭义相对论的动能和质能方程, 研究的结论是: 运动电子的电荷量跟随着它的静质量而同步地散失. 既然电子可以进一步地再分解, 那么就存在一种组成电子的更为基本的粒子--电基子. 它的荷质比等于电子的物理常数荷质比, 这应该是电的终极粒子. 由此推论, 电子储存环中所辐射出的光子也是由电基子所组成. 再结合德布罗意的物质波关系式可知, 高速粒子的能量收敛现象才是造成光谱红移的首要因素. 最后, 以合肥光源800MeV电子储存环为例, 计算出环中电子的运动速度, 并推定出它的静质量和波长值的大致范围. 再借助一个业内众所周知但似乎已被忽略的实验事实, 依据能量守恒原理, 针对环中所辐射出特征波长为2.427nm的光子, 计算出它的运动速度和静质量, 以及在给定磁场中的偏转半径. 此外, 为验证上述论点是否成立, 提出一种简易可行的鉴别方法, 那就是测出储存环中电子的波长值.
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