\begin{document}$\rm C_3H_4^{2+}$\end{document} divalent ion from propylene (CH2CCH2) and proacetylene (CH3CCH) and then dissociating to produce H+ and C3H2+ \begin{document}$\rm C_3H_2^+$\end{document} ions and H atom is studied. Using the reaction microscope, the momentum vector of H+ ion and the momentum vector of \begin{document}$\rm C_3H_2^+$\end{document} ion are directly obtained, and then the momentum of the undetected fragment is reconstructed according to momentum conservation. By analyzing the kinetic energy of the three fragments and the total kinetic energy released from the dissociation process, the events with H atom as the third fragment are discriminated from H+, and thus the H+ ion, \begin{document}$ \rm C_3H_2^+ $\end{document} ion, and H atom are identified. In addition, it is found that the sequential fragmentation pathway in which H+ ion and \begin{document}$\rm C_3H_3^+$\end{document} ion are produced in the first step followed by dissociation of \begin{document}$ \rm C_3H_3^+ $\end{document} into \begin{document}$ \rm C_3H_2^+ $\end{document} ion and H atom in the second step is the dominant dissociation mechanism according to the detailed analyses of the Dalitz plot, Newton diagram and α distribution."> Three-body fragmentation dynamics of C<sub>3</sub>H<sub>4</sub> induced by 50-keV/u Ne<sup>8+</sup> ion impact - 必威体育下载

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Li Tao-Tao, Yuan Hang, Wang Xing, Zhang Zhen, Guo Da-Long, Zhu Xiao-Long, Yan Shun-Cheng, Zhao Dong-Mei, Zhang Shao-Feng, Xu Shen-Yue, Ma Xin-Wen
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  • Abstract views:3196
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  • Received Date:30 November 2021
  • Accepted Date:21 January 2022
  • Available Online:02 February 2022
  • Published Online:05 May 2022

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