Flavor mixing and solution structures in Dyson–Schwinger equations for a two-flavor system

IF 2.4 3区 物理与天体物理 Q2 PHYSICS, MULTIDISCIPLINARY
Xue-ao Chao, Yu-xin Liu
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Abstract

We solved the Dyson–Schwinger (DS) equations for a two-flavor system with symmetry to study its flavor mixing effects. Initially, we employed the point interaction model and bare vertex approximation to reveal the structure of the solutions. Using the point interaction model, the DS equations can be solved analytically, and we found that these solutions can be classified into three groups, each forming an ellipse. These solutions exhibit SO(2) symmetry, while the original SU(2) symmetry at the Lagrangian level is dynamically broken to SO(2), corresponding to the emergence of flavor mixing effects. However, this flavor mixing effect does not manifest in the final physical state. By utilizing the system’s SO(2) symmetry, we can diagonalize the propagators of the DS equations, eliminating the flavor mixing effect but causing the originally degenerate masses at the Lagrangian level to split. These mass eigenstates have identical quantum numbers but different masses. If we can correspond these to quark particles of different generations, we can explain why the three generations of quarks have different masses and obtain the corresponding quark mass spectrum. Finally, we provide the corresponding numerical results using a more realistic interaction model.
双味系统戴森-施温格方程中的味混合和解结构
我们求解了具有对称性的双味系统的戴森-施温格(Dyson-Schwinger,DS)方程,以研究其味混合效应。最初,我们采用了点相互作用模型和裸顶点近似来揭示解的结构。利用点相互作用模型,DS方程可以得到解析求解,我们发现这些解可以分为三组,每组形成一个椭圆。这些解呈现出SO(2)对称性,而拉格朗日层面的原始SU(2)对称性被动态地打破为SO(2),这与出现的味道混合效应相对应。然而,这种味道混合效应在最终物理状态中并不明显。通过利用系统的 SO(2) 对称性,我们可以将 DS 方程的传播者对角化,从而消除味道混合效应,但会导致拉格朗日层面原本退化的质量分裂。这些质量特征态的量子数相同,但质量不同。如果我们能把它们对应到不同世代的夸克粒子上,就能解释为什么三代夸克具有不同的质量,并得到相应的夸克质量谱。最后,我们用一个更现实的相互作用模型提供了相应的数值结果。
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来源期刊
Communications in Theoretical Physics
Communications in Theoretical Physics 物理-物理:综合
CiteScore
5.20
自引率
3.20%
发文量
6110
审稿时长
4.2 months
期刊介绍: Communications in Theoretical Physics is devoted to reporting important new developments in the area of theoretical physics. Papers cover the fields of: mathematical physics quantum physics and quantum information particle physics and quantum field theory nuclear physics gravitation theory, astrophysics and cosmology atomic, molecular, optics (AMO) and plasma physics, chemical physics statistical physics, soft matter and biophysics condensed matter theory others Certain new interdisciplinary subjects are also incorporated.
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