手性对称性和非普通κ/K0（700）性质在π±KS飞镜相关中的作用

IF 4.3 2区物理与天体物理 Q1 ASTRONOMY & ASTROPHYSICS

Physics Letters B Pub Date : 2025-05-09 DOI:10.1016/j.physletb.2025.139552

M. Albaladejo , A. Canoa , J. Nieves , J.R. Peláez , E. Ruiz Arriola , J. Ruiz de Elvira

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引用次数: 0

摘要

我们表明，使用从散射数据的色散分析中得到的真实π k相互作用，以及相对论修正，对于描述最近观测到的π±KS飞镜相关性是必不可少的。我们证明了自发手性对称性破缺动力学和κ/K0（700）共振的非寻常特征，以及同位旋通道之间的大消去，与广泛使用的模型相比，产生了π±KS飞频相关性的大抑制。在标准的壳上分解形式的改进版本中，我们说明了补偿这种相互作用抑制导致源半径小于1 fm，这与通常的期望相反，以及更大的相关强度。这两个参数之间的关系不能容纳在描述共振性质的朴素模型中。这可能会引起人们对流行但过于简单的方法对具有轻介子的系统的适用性的关注。然而，我们在这里展示的相关抑制效应将适用于任何形式，并且对于涉及光介子的其他飞镜系统可能会有实质性的修正。

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The role of chiral symmetry and the non-ordinary κ/K0⁎(700) nature in π±KS femtoscopic correlations

We show that the use of realistic πK interactions, obtained from a dispersive analysis of scattering data, as well as relativistic corrections, are essential to describe recently observed

π^{\pm} K_{S}

femtoscopic correlations. We demonstrate that the spontaneous chiral symmetry breaking dynamics and the non-ordinary features of the

κ / K_{0}^{⁎} (700)

resonance, together with large cancellations between isospin channels, produce a large suppression of

π^{\pm} K_{S}

femtoscopic correlations compared to widely used models. Within an improved version of the standard on-shell factorization formalism, we illustrate that compensating for this interaction suppression leads to source radii smaller than 1 fm, contrary to usual expectations, as well as larger correlation strengths. The relation between these two parameters cannot be accommodated within naive models describing the nature of the resonances. This may raise concerns about the applicability of popular but too simple approaches for systems with light mesons. However, the correlation-suppression effects we demonstrate here will be relevant in any formalism, and substantial corrections may be expected for other femtoscopic systems involving light mesons.

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来源期刊

Physics Letters B 物理-物理：综合

CiteScore

9.10

自引率

6.80%

发文量

647

审稿时长

3 months

期刊介绍： Physics Letters B ensures the rapid publication of important new results in particle physics, nuclear physics and cosmology. Specialized editors are responsible for contributions in experimental nuclear physics, theoretical nuclear physics, experimental high-energy physics, theoretical high-energy physics, and astrophysics.