\begin{document}$ E2 $\end{document} , \begin{document}$ M1 $\end{document} , and \begin{document}$ E0 $\end{document} transition strengths of nucleus 124Te have been calculated by the neutron-proton interacting boson model. The calculated results are reasonably consistent with the experimental data. By comparing the key observables of the states at the critical point of \begin{document}$ {\rm U}_{\pi \nu}(5) $\end{document} - \begin{document}$ {\rm O}_{\pi \nu}(6) $\end{document} transition with the experimental data and calculated results, we show that the 124Te is a possible nucleus at the critical point of the second-order phase transition from vibration to unstable rotation, and such a critical point exhibits slight triaxial rotation. The 0 \begin{document}$_2^ + $\end{document} state of 124Te can be interpreted as the lowest state of the first-excited family of the intrinsic levels in the critical point symmetry."> Description of the critical point symmetry in <sup>124</sup>Te by IBM-2 -
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