利用旋螺旋度技术探索大质量狄拉克和马约拉纳中微子的量子统计

IF 5.3 2区物理与天体物理 Q1 Physics and Astronomy

Physical Review D Pub Date : 2025-09-30 DOI:10.1103/23ks-btx5

Innes Bigaran, Stephen J. Parke, Pedro Pasquini

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引用次数: 0

摘要

最近，人们对量子统计在多中微子最终态中区分狄拉克中微子和马约拉纳中微子的适用性产生了兴趣。特别是，关于狄拉克-马约拉纳混淆定理在这些过程中的有效性的争论已经出现，即狄拉克和马约拉纳过程之间的任何区别随着中微子质量趋于零而趋于零。在这里，我们用推广到大质量狄拉克费米子和马约拉纳费米子的旋-螺旋度方法来解决这个问题。我们明确地计算了一个轻标量粒子衰变为两个中微子和两个带相反电荷的轻子的所有螺旋振幅及其平方。这使我们能够精确地指出可能导致违反混淆定理的关键步骤。我们表明，如果使用狄拉克到马约拉纳振幅的正确反对称，在这个框架中识别是清楚的，并且所有相关的贡献都被适当地求和，一个标量衰变为两个带电荷的轻子和两个中微子满足狄拉克-马约拉纳混淆定理。

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Exploring quantum statistics for massive Dirac and Majorana neutrinos using spinor-helicity techniques

Recently, there has been interest in the applicability of quantum statistics to distinguish Dirac from Majorana neutrinos in multineutrino final states. In particular, debate has arisen over the validity of the Dirac-Majorana confusion theorem in these processes, i.e., that any distinction between the Dirac and Majorana processes goes to zero as the neutrino mass goes to zero. Here we approach this problem equipped with spinor-helicity methods generalized for massive Dirac and Majorana fermions. We explicitly calculate all helicity amplitudes, and their squares, for the decay of a light scalar particle to two neutrinos and two oppositely charged leptons. This allows us to pinpoint the crucial steps which could lead to claims of a violation of the confusion theorem. We show that, if the correct antisymmetrization of Dirac to Majorana amplitudes is used, identification of which is clear in this framework, and all relevant contributions are appropriately summed, a scalar decay into two charged leptons and two neutrinos satisfies the Dirac-Majorana confusion theorem.

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来源期刊

Physical Review D 物理-天文与天体物理

CiteScore

9.20

自引率

36.00%

发文量

审稿时长

2 months

期刊介绍： Physical Review D (PRD) is a leading journal in elementary particle physics, field theory, gravitation, and cosmology and is one of the top-cited journals in high-energy physics. PRD covers experimental and theoretical results in all aspects of particle physics, field theory, gravitation and cosmology, including: Particle physics experiments, Electroweak interactions, Strong interactions, Lattice field theories, lattice QCD, Beyond the standard model physics, Phenomenological aspects of field theory, general methods, Gravity, cosmology, cosmic rays, Astrophysics and astroparticle physics, General relativity, Formal aspects of field theory, field theory in curved space, String theory, quantum gravity, gauge/gravity duality.