Superluminal neutrinos: experimental data and new interpretative theories

L. Nanni
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Abstract

In this study the data of the OPERA and MINOS experiments, together with those related to the SN1987A supernova, are discussed in the context of the recent theories proposed for the superluminal muon neutrino. It is proved that for the models in which the Lorentz symmetry is violated, the decay mechanism leading to neutrino oscillation becomes possible. Within this framework, a new model based on the Hartman effect is proposed, according to which the neutrino becomes superluminal by quantum tunnelling, crossing a potential barrier generated by its interaction with the earth's crust matter. This model does not violate the Lorentz symmetry since the tachyonic state is generated by the quantum fluctuation of the neutrino initial energy, even if it requires to conjecture the presence of a quantum field that we ascribe to be that due to dark matter. In this model all superluminal neutrino decay mechanisms proposed in other studies are allowed. The hypothetical boson mediating the interaction between neutrino and dark matter is also discussed.
超光速中微子:实验数据和新的解释理论
在本研究中,OPERA和MINOS实验的数据,以及与SN1987A超新星有关的数据,在最近提出的超光速介子中微子理论的背景下进行了讨论。证明了在违背洛伦兹对称的模型中,导致中微子振荡的衰变机制成为可能。在这个框架内,提出了一个基于哈特曼效应的新模型,根据该模型,中微子通过量子隧道穿越其与地壳物质相互作用产生的势垒而成为超光速。这个模型并不违反洛伦兹对称,因为速子态是由中微子初始能量的量子涨落产生的,即使它需要推测一个量子场的存在,我们认为这是由于暗物质造成的。在这个模型中,其他研究中提出的所有超光速中微子衰变机制都是允许的。还讨论了中微子与暗物质相互作用的假设玻色子。
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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