On the overflowing of cosmic rays from galaxies and the expansion of cosmic matter

A. Codino
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Abstract

Particles of the cosmic radiation, electrons and nuclei, transport a dominant positive electric charge. A tiny fraction of these particles of extremely high energies in favorable conditions overflow from galaxies. The overflowing of positively charged cosmic nuclei into the intergalactic space uncovers an equal amount of negative charge in the parent galaxy. Negative charge is mainly stored by quiescent electrons. After adequate particle propagation neither the negative electric charge located in the galaxies nor the positive electric charge of the overflowed cosmic nuclei can be neutralized due to the enormous distances. In several ways it is proved that the total electric charge retained by clusters of galaxies after an appropriate time interval generate a repulsive force between clusters which overwhelms gravity. After a few billions years of electrostatic repulsion, peripheral clusters attain relativistic velocities and their mutual distances increase accordingly. Several facts suggest that the expansion of the universe, as determined by optical observations since a century, has been caused by the electrostatic repulsion of the positively charged cosmic nuclei overflowed from galaxy clusters.
来自星系的宇宙射线的溢出和宇宙物质的膨胀
宇宙辐射的粒子,电子和原子核,传递一个主要的正电荷。在有利条件下,这些具有极高能量的粒子中有一小部分从星系中溢出。带正电荷的宇宙核向星系间空间的溢出揭示了母星系中等量的负电荷。负电荷主要由静止电子储存。在充分的粒子传播之后,星系中的负电荷和溢出的宇宙核的正电荷都不能由于巨大的距离而被中和。用几种方法证明了星系团在一段适当的时间间隔后所保留的总电荷在星系团之间产生一种压倒重力的斥力。经过几十亿年的静电斥力,外围星团达到相对论速度,它们之间的距离也相应增加。几个事实表明,正如一个世纪以来的光学观测所确定的那样,宇宙的膨胀是由星系团溢出的带正电的宇宙核的静电排斥引起的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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