Strong isospin symmetry breaking in light scalar meson production
N.N. Achasov, G.N. Shestakov

TL;DR
This paper explores isospin symmetry breaking in light scalar meson production, focusing on the $a_0^0(980)$ and $f_0(980)$ mixing, and highlights how $Kar K$ threshold effects reveal insights into meson nature and production mechanisms.
Contribution
It introduces a novel perspective on isospin breaking effects related to $Kar K$ pairs, emphasizing the role of resonance-like amplitude variations and anomalous thresholds in scalar meson studies.
Findings
Evidence of $a_0^0(980)$-$f_0(980)$ mixing from decay experiments
Isospin breaking effects linked to $K^+$ and $K^0$ mass differences
Large symmetry breaking observed in $ ext{eta}(1405)$ decay due to triangle singularities
Abstract
Isospin symmetry breaking is discussed as a tool for studying the nature and production mechanisms of light scalar mesons. We are concerned with isospin breaking effects with an amplitude (instead of the usual ), where and are the and quark masses, whose magnitude and phase vary with energy in a resonance-like way characteristic of the threshold region. We consider a variety of reactions that can experimentally reveal (or have revealed) the mixing of and resonances that breaks the isotopic invariance due to the mass difference between and mesons. Experimental results on the search for mixing in and decays suggest a broader perspective on the isotopic symmetry breaking…
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