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RELATIVISTIC QUANTUM MECHANICS DESCRIPTION OF NEUTRINO SPIN-FLAVOR OSCILLATIONS IN VARIOUS EXTERNAL FIELDS

Particle Physics at the Year of 150th Anniversary of the Mendeleev's Periodic Table of Chemical Elements Pub Date : 2019-11-29 DOI:10.1142/9789811233913_0029
M. Dvornikov
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Abstract

We review the application of the relativistic quantum mechanics method for the description of neutrino oscillations for the studies of spin-flavor oscillations in background matter under the influence of a plane electromagnetic wave. Basing on the new exact solution of the Dirac-Pauli equation for a massive neutrino in the given external fields, we derive the transition probabilities for spin and spin-flavor oscillations. The obtained expressions are analyzed for different types of the neutrino magnetic moments. Our results are compared with findings of other authors.
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相对论量子力学对不同外场中中微子自旋振荡的描述
本文综述了描述中微子振荡的相对论量子力学方法在研究平面电磁波影响下背景物质中自旋风味振荡中的应用。基于给定外场下大质量中微子狄拉克-泡利方程的新精确解,导出了自旋振荡和自旋风味振荡的跃迁概率。对不同类型的中微子磁矩进行了分析。我们的结果与其他作者的研究结果进行了比较。
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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Particle Physics at the Year of 150th Anniversary of the Mendeleev's Periodic Table of Chemical Elements
Particle Physics at the Year of 150th Anniversary of the Mendeleev's Periodic Table of Chemical Elements
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