\begin{document}$x_{\pi}$\end{document} range from 0.01 to 1, and the \begin{document}$Q^2$\end{document} range from 1 to 50 GeV\begin{document}$^2$\end{document}, within the acceptable statistical uncertainty. Assuming an integrated luminosity of 50 fb\begin{document}$^{-1}$\end{document}, in the low-\begin{document}$Q^{2}$\end{document} region (\begin{document}$<10$\end{document} GeV\begin{document}$^2$\end{document}), the Monte Carlo data show that the suggested measurement in the whole \begin{document}$x_{\rm{\pi}}$\end{document} range reaches very high precision (\begin{document}$<3$\end{document}%). To perform such an experiment, only the addition of a far-forward neutron calorimeter is needed."> Simulation of neutron-tagged deep inelastic scattering at EicC -
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