Abstract
There exists a great deal of concrete evidence in favor of the exotic four-quark nature of light scalars. At the same time, the further expansion of the area of the $q^2\bar q^2$ model validity for light scalars on ever new processes seems extremely interesting and important. We analyze the BESIII data on the decay $J/\psi\to \gamma\pi^0\pi^0$ and show that the results of this high-statistics experiment can be interpreted in favor of the four-quark nature of light scalar mesons $f_0(980)$ and $f_0(500)$.
Highlights
To date, an impressive array of data on light scalar mesons has been accumulated [1]
There exists a great deal of concrete evidence in favor of the exotic four-quark nature of light scalars
We analyze the BESIII data on the decay J=ψ → γπ0π0 and show that the results of this high-statistics experiment can be interpreted in favor of the fourquark nature of light scalar mesons f0ð980Þ and f0ð500Þ
Summary
An impressive array of data on light scalar mesons has been accumulated [1]. We analyze the BESIII data on the decay J=ψ → γπ0π0 and show that the results of this high-statistics experiment can be interpreted in favor of the fourquark nature of light scalar mesons f0ð980Þ and f0ð500Þ.
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