作者根据夸克带有分数电荷的假设,预言有量子性亚电e_w的存在。e_w 之值等于电子电荷e 的三分之一。并设想电子是由三个带有亚电荷e_w 的粒子构成。荷亚电荷的粒子或亚电子,用符号w 表示。它的质量为m_w、自旋为1/2,使可唯象地解释电子的结构。对于电子特殊稳定性,可借正三角形框形模型来定性说明。对于w 粒子之间的相互的作用力,仍假定是电磁力。不过在电子尺度内,这种电磁力有质的跃交,同性电荷之间应表现为强大的引力。它的场量子,也许可由真空自发破缺理论得到。并且,根据以上的假设,可以使模型的计算简化。 Based on the assumption that quarks have a fractional charge, the authors predict the existence of quantum ebg. The value of e_w is equal to one third of the electron charge e. And imagine that the electron is composed of three particles with subcharge e_w. Charged particles or sub-electrons, denoted by the symbol w. Its mass is m_w, spin is 1/2, which can explain the structure of the electron phenomenally. For the special electronic stability, can be qualitative triangle box-shaped model to illustrate. The mutual forces between w particles are still assumed to be electromagnetic forces. However, in the electronic scale, this electromagnetic force qualitative jump, the same sex charge should show a strong attraction. Its quantum field, may be obtained by the vacuum spontaneous breaking theory. And, based on the above assumptions, the calculation of the model can be simplified.