\begin{document}$ Z_{b}(10610) $\end{document} and \begin{document}$ Z_{b}(10650) $\end{document} via \begin{document}$ \gamma p $\end{document} scattering is studied within an effective Lagrangian approach and the vector-meson-dominance model. The Regge model is employed to calculate the photoproduction of \begin{document}$ Z_{b} $\end{document} states via the t-channel with \begin{document}$ \pi $\end{document} exchange. The numerical results show that the values of the total cross-sections of \begin{document}$ Z_{b}(10610) $\end{document} and \begin{document}$ Z_{b}(10650) $\end{document} can reach 0.09 nb and 0.02 nb, respectively, near the center-of-mass energy of 22 GeV. Experimental measurements and studies of the photoproduction of \begin{document}$ Z_{b} $\end{document} states near the energy region around \begin{document}$ W\simeq 22 $\end{document} GeV are suggested. Moreover, with the help of eSTARlight and STARlight programs, we have obtained the cross-sections and numbers of events for \begin{document}$ Z_{b}(10610) $\end{document} production in electron-ion collisions (EIC) and ultraperipheral collisions (UPCs). The results show that a considerable number of \begin{document}$ Z_{b}(10610) $\end{document} events can be produced in the relevant experiments on EICs and UPCs. We have also calculated the rates and kinematic distributions for \begin{document}$ \gamma p\rightarrow Z_{b}n $\end{document} in \begin{document}$ ep $\end{document} and \begin{document}$ pA $\end{document} collisions via EICs and UPCs. The results will provide an important reference for the RHIC, LHC, EIC-US, LHeC, and FCC experiments in searching for bottomonium-like \begin{document}$ Z_{b} $\end{document} states."> Production of bottomonium-like <i>Z<sub>b</sub></i> states in e-h and ultraperipheral h-h collisions -
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