Abstract
The BESIII experiment has accumulated the world’s largest data samples of 1.3 billion J/ψ events and 0.45 billion ψ(3686) events, which provide a unique opportunity to investigate light meson decays. The η and η′ decays are sensitive tools for investigations of π − π and η − π interactions, symmetry breaking, and serve as a test of chiral perturbation theory. In recent years considerable results on η and η′ decays were achieved at the BESIII experiment. In this proceeding, we present the significant progresses on amplitude analyses of Dalitz decays η' → 3π,η' → ηππ, and radiative decay η' → γπ+π−, η' → γγπ0. Additionally, the $a_0^0\left( {980} \right) - {f_0}\left( {980} \right)$ mixing is an important probe to the nature of those two lightest scalar mesons. The first observation of $a_0^0\left( {980} \right) - {f_0}\left( {980} \right)$ mixing is also presented, which will help to improve the understanding of the nature of $a_0^0\left( {980} \right)$ and f0(980).
Highlights
Light meson decays play a crucial role in examining and understanding the Quantum Chromodynamics (QCD) theory in non-pertubative energy region
The a00(980)- f0(980) mixing is an important probe to the nature of those two lightest scalar mesons
Η decay dynamics remains a subject of extensive theoretical studies aiming at extensions of the chiral perturbation theory (ChPT)
Summary
Light meson decays play a crucial role in examining and understanding the Quantum Chromodynamics (QCD) theory in non-pertubative energy region. The most recent measurement of η → ηπ0π0 is from the GAMS-4π experiment [15], complementing older results reported by the GAMS-2000 Collaboration [16] In this proceeding, the most precise measurements of the matrix element for the η → ηπ+π− and η → ηπ0π0 decays are presented based on J/ψ radiative decay [17]. The most precise measurements of the matrix element for the η → ηπ+π− and η → ηπ0π0 decays are presented based on J/ψ radiative decay [17] The Dalitz plot parameters for both decays are in reasonable agreement and more precise than the previous measurements [12,13,14,15]
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