\begin{document}$ ^{11} {\rm{Be}}$\end{document} halo nucleus on a light target (\begin{document}$ ^{12} {\rm{C}}$\end{document}) within the quantum-quasiclassical approach in a wide range of beam energy (5–67 MeV/nucleon), including bound states and low-lying resonances in different partial and spin states of \begin{document}$ ^{11} {\rm{Be}}$\end{document}. The obtained results are in good agreement with existing experimental data at 67 MeV/nucleon. Furthermore, we demonstrate that the developed computational scheme can be used for investigating nuclei spectral properties in low-energy breakup experiments on different targets."> Investigation of spectral properties of <sup>11</sup>Be in breakup reactions -
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