The 1932 Majorana equation: a forgotten but surprisingly modern particle theory

Luca Nanni
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Abstract

The Standard Model is an up-to-date theory that best summarizes current knowledge in particle physics. Although some problems still remain open, it represents the leading model which all physicists refer to. One of the pillars which underpin the Standard Model is represented by the Lorentz invariance of the equations that form its backbone. These equations made it possible to predict the existence of particles and phenomena that experimental physics had not yet been able to detect. The first hint of formulating a fundamental theory of particles can be found in the 1932 Majorana equation, formulated when electrons and protons were the only known particles. Today we know that parts of the hypotheses set by Majorana were not correct, but his equation hid concepts that are found in the Standard Model. In this study, the Majorana equation is revisited and solved for free particles. The time-like, light-like and space-like solutions, represented by infinite-component wave functions, are discussed. Furthermore, by introducing subsidiary conditions on the mass term, it is possible to quantize both the fermionic and the bosonic towers, obtaining the mass spectrum of the entire family of charged leptons, baryons and mesons.
1932 年的马约拉纳方程:一个被遗忘却令人惊讶的现代粒子理论
标准模型是最能概括当前粒子物理学知识的最新理论。尽管有些问题仍然悬而未决,但它代表了所有物理学家都参考的主要模型。标准模型的支柱之一是构成其主干的洛伦兹不变性方程。这些方程使人们有可能预测实验物理学尚未能探测到的粒子和现象的存在。1932年的马约拉纳方程首次暗示了粒子基本理论的形成,当时电子和质子是唯一已知的粒子。今天我们知道,马约拉纳提出的部分假设并不正确,但他的方程隐藏着标准模型中的概念。在这项研究中,我们重新审视了马约拉纳方程,并对自由粒子进行了求解。讨论了由无穷分量波函数表示的类时间、类光和类空间解。此外,通过引入质量项的附属条件,有可能量化费米子和玻色子塔,从而获得整个带电轻子、重子和介子家族的质量谱。
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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