\begin{document}$m^{\ast}/m$\end{document}); these values are derived from the nuclear structure function ratio between heavy nuclei and deuterium measured in the electron Deep Inelastic Scattering (DIS) reaction in 0.3 \begin{document}$\leqslant x\leqslant $\end{document}0.7. The increase in \begin{document}$m^{\ast}/m$\end{document} with \begin{document}$A^{-1/3}$\end{document} is phenomenologically interpreted via the release of a color-singlet cluster formed by sea quarks and gluons in bound nucleons holding high momentum in the nucleus, from which the mass and fraction of non-nucleonic components in nuclei can be deduced. The mass of color-singlet clusters released per short range correlated (SRC) proton in the high momentum region (\begin{document}$k>$\end{document} 2 fm\begin{document}$^{-1}$\end{document}) is extracted to be 16.890\begin{document}$\pm$\end{document}0.016 MeV/c\begin{document}$^{2}$\end{document}, which evidences the possibility of a light neutral boson and quantized mass of matter."> Possible light neutral boson and particle mass quantization -
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