电子的反常特性

Anomalous Characteristics of an Electron

用Dirac大数D、Planck大数A计算了电子的反常质量Δme、反常电荷ΔQe、反常磁矩Δμe,据此算出电子的半径re≈10-16cm与实验很好相符.中微子也有反常,反常量是轻子亚夸克结构动态模型的必然结果.且反常Δme、ΔQe间存在相互关联,满足质-荷联合守恒律,据此亦可定出ΔQe的结果.若把电子视为可压缩性极小的量子液滴,其内的亚夸克在平衡位置附近作谐振动导致了电子等体积表面形变,产生的电、磁对称破缺是出现反常量的根源.电子可视为谐振子系统,可估计出(Δre)/(re)的相对量值非常微小.

Anomalous mass Δme, anomalous charge ΔQ4 and anomalous magnetic moment Δμ are calculated by using Dirac＇s large number D and Planck＇s large number. On these grounds, the radius of an electron is calculated,which is re = 10^-16 cm and tallies well with the experiment. There is anomalousness in a neutrino as well,and the anomalous quantities are the inevitable outcome of the dynamical model of the subquark structure of a lepton. And there is inter-correlation between anomalous Arne and anomalous ΔQe, which satisfies the combined mass-charge conservation law,and the value AQecan be determined accordingly. If an electron is regarded as a quantum liquid drop which is little compressible, its inside harmonic oscillation of subquarks near the equilibrium positions leads to equal-volume surface deformation of an electron and the electromagnetic symmetry violation emerging is the origin of anomalous quantity. An electron can be looked upon as a Δe harmonic-oscillator system,and relative value Δre/re be estimated. It is very small.