Space-time Gets Reversed Only for Fermions where as Space-time is Identical for Bosons: Scientific Explanation

P. Debnath
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Abstract

In particle physics, there are primarily two sorts of particles. These are bosons and fermions, respectively. Particles are divided into subcategories in both of them. A fermion is a particle that has odd half-integer spin, for example, like \(\frac{1}{2}\) , \(\frac{3}{2}\) and so on. Quarks, Leptons, Protons, Neutrons are fermions. Bosons are particles with integer spins such as 0, 1, 2, and so on. For example, Bosons are like Photons, Gluons, W+, W-, Z0 bosons, Higgs bosons, Mesons etc. All matter particles (with mass) are fermions and have a significant amount. All particles that carry force are bosons. In this chapter, I'll illustrate that only fermions interact with space-time and get reversed. In space-time, bosons interact but are not reversed. Anti-particles (fermions) have space-time reversed, but bosons have space-time that is identical. As a result, all matter particles have their anti-particle counterparts, but all force carrying particles do not have their anti-particle counterparts.
时空只对费米子反转,而对玻色子则是相同的:科学解释
在粒子物理学中,主要有两种粒子。它们分别是玻色子和费米子。在这两种方法中,粒子都被划分为子类别。费米子是一种自旋为奇数的半整数粒子,比如\(\frac{1}{2}\)\(\frac{3}{2}\)等等。夸克、轻子、质子、中子都是费米子。玻色子是具有整数自旋的粒子,如0、1、2等等。例如,玻色子有光子、胶子、W+、W-、Z0玻色子、希格斯玻色子、介子等。所有(有质量的)物质粒子都是费米子,而且数量很大。所有携带力的粒子都是玻色子。在本章中,我将说明只有费米子与时空相互作用并反转。在时空中,玻色子相互作用,但不反向。反粒子(费米子)的时空是相反的,但玻色子的时空是相同的。因此,所有物质粒子都有对应的反粒子,但所有携带力的粒子都没有对应的反粒子。
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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