\begin{document}$ Z\rightarrow l_1l_2 $\end{document}, such as those leading to lepton flavor violation (LFV) final states. In this work, by considering the constraints from radiative two-body decays \begin{document}$ l_2\rightarrow l_1\gamma $\end{document}, we investigate the LFV decays \begin{document}$ Z\rightarrow l_1l_2 $\end{document} in the framework of the Minimal R-symmetric Supersymmetric Standard Model with two benchmark points from the existing literature. The flavor-violating off-diagonal entries \begin{document}$ \delta^{12} $\end{document}, \begin{document}$ \delta^{13} $\end{document} and \begin{document}$ \delta^{23} $\end{document} are constrained by the current experimental bounds of \begin{document}$ l_2\rightarrow l_1\gamma $\end{document}. Considering recent experimental constraints, we also investigate Br(\begin{document}$ Z\rightarrow l_1l_2 $\end{document}) as a function of \begin{document}$ M_D^W $\end{document}. The numerical results show that the theoretical predictions of Br(\begin{document}$ Z\rightarrow l_1l_2 $\end{document}) in the MRSSM are several orders of magnitude below the current experimental bounds. The LFV decays \begin{document}$ Z\rightarrow e\tau $\end{document} and \begin{document}$ Z\rightarrow \mu\tau $\end{document} may be promising observation targets in future experiments."> LFV decays of <i>Z</i> boson in Minimal <i>R</i>-symmetric Supersymmetric Standard Model -
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