\begin{document}$ \Delta E $\end{document}–E technique. Angular distributions are constructed for the elastic, inelastic, and deuteron transfer channels by detecting emitted particles – 6Li and α. Elastic and inelastic scattering of 6Li off 12C are analyzed using the optical model and coupled channels approaches, with the interaction described by a double-folding potential. This potential is calculated based on the three-body wave function of 6Li. Pronounced coupled-channel effects that modify the potential and allow accurate reproduction of the experimental cross sections are observed. The resulting polarized potentials provide a more precise description of the initial-state interaction for further reaction modeling. The deuteron transfer channel, 12C(6Li, α)14N, is studied using the coupled reaction channels method. The coupling between the transfer and elastic channels is implemented using the three-body wave function of 6Li. As an alternative, a regular wave function constructed with a phenomenological Woods–Saxon potential is also employed. Comparison between the calculated differential cross sections and experimental data reveals a more complex and nuanced reaction mechanism, which supports the cluster structure of 6Li."> Probing the cluster structure of <sup>6</sup>Li with the <sup>6</sup>Li + <sup>12</sup>C nuclear reaction at 68 MeV -
  • [1]

    O. Kiss , M. Grossi, P. Lougovskiet al., Phys.Rev. C106, 034325 (2022)

  • [2]

    A. Amar and A. Ibraheem, Int. J. Mod. Phys. E30, 2150090 (2021)

  • [3]

    G. Ropke, Phys.Rev. C101, 064310 (2020)

  • [4]

    M. Egorov and V. Postnikov, Chin. Phys. C45, 014108 (2021)

  • [5]

    B. Urazbekov, T. Issatayev, S. Lukyanovet al., Chin. Phys. C48, 014001 (2024)

  • [6]

    A. Solovyev, Phys. Atomic Nuclei86, 24 (2023)

  • [7]

    S. Perrotta, M. Colonna and J. Lay, Phys. Rev. C108, 044614 (2023)

  • [8]

    M. Zhukov, B. Danilin, D. Fedorovet al., Phys. Rep.231, 151 (1993)

  • [9]

    E. Braaten and H. W. Hammer, Phys. Rep.428, 259 (2006)

  • [10]

    A. Jensen, K. Riisager, D. V. Fedorovet al., Rev. Mod. Phys.76, 215 (2004)

  • [11]

    C. D. Lin, Phys. Rep.257, 1 (1995)

  • [12]

    Y. Kanada-En’yo, H. Horiuchi and A. Ono, Phys. Rev. C52, 628 (1995)

  • [13]

    V. Kukulin, V. Krasnopol’sky, V. Voroncheet al., Nucl. Phys. A417, 128 (1984)

  • [14]

    J. Bang and C. Gignoux, Nucl. Phys. A313, 119 (1979)

  • [15]

    V. Starastsin, A. Demyanova, A. Danilovet al., Eur. Phys. J. A57, 1 (2021)

  • [16]

    A. Azhibekov, S. Lukyanov, Y. E. Penionzhkevichet al., Chin. Phys. C48, 114101 (2024)

  • [17]

    D. Nauruzbayev, V. Goldberg, A. Nurmukhanbetovaet al., Phys. Rev. C96, 014322 (2017)

  • [18]

    S. Lukyanov, M. Harakeh, M. Naumenkoet al., J. Phys.: Conf. Ser.724, 012031 (2015)

  • [19]

    U. Umbelino, K. Pires, R. Lichtenthäleret al., Phys. Rev. C99, 064617 (2019)

  • [20]

    Y. T. Oganessian, V. Zagrebaev and J. Vaagen, Phys. Rev. C60, 044605 (1999)

  • [21]

    B. Urazbekov, A. Denikin, S. Lukyanovet al., J. Phys. G: Nucl. Part. Phys.46, 105110 (2019)

  • [22]

    B. Urazbekov, A. Denikin, S. Sakhievet al., Bulletin of the Russian Academy of Sciences: Physics80, 247 (2016)

  • [23]

    B. Urazbekov, A. Denikin, N. Itacoet al., Phys. Atom. Nuclei84, 250 (2021)

  • [24]

    V. Kukulin, V. Pomerantsev, K. D. Razikovet al., Nucl. Phys. A586, 151 (1995)

  • [25]

    B. Day , Phys. Rev. C24, 1203 (1981)

  • [26]

    V. Kukulin and V. Pomerantsev, Annals of Physics111, 330 (1978)

  • [27]

    B. Urazbekov 2021Manifestation of cluster structure of weakly bound light nuclei in direct nuclear reactions, Ph.D. Thesis (Caserta: Universita degli Studi della Campania Luigi Vanvitelli, 2021)

  • [28]

    G. R. Satchler and W. G. Love, Phys. Rep.55, 183 (1979)

  • [29]

    V. Pomerantsev V and V. Kukulin V, 2015 Private communication: The groundstate parameters of the three boody wave function

  • [30]

    I. Tanihata, H. Hamagaki, O. Hashimoto Oet al., Phys. Rev. Lett.55, 2676 (1985)

  • [31]

    I. Sick, Phys. Lett. B116, 212 (1982)

  • [32]

    R. D. Woods and D. S. Saxon, Phys. Rev.95, 577 (1954)

  • [33]

    D. T. Khoa, Phys. Rev. C63, 034007 (2001)

  • [34]

    I. J. Thompson, Comput. Phys. Rep.7, 167 (1988)

  • [35]

    Y. Xu, Y. Han, J. Huet al., Phys. Rev. C98, 024619 (2018)

  • [36]

    J. Kelley, J. Purcell and C. Sheu, Nucl. Phys. A968, 71 (2017)

  • [37]

    M. Yasue, T. Tanabe, F. Sogaet al., Nucl. Phys. A394, 29 (1983)

  • [38]

    O. Aspelund, G. Hrehuss, A. Kisset al., Nucl. Phys. A253, 263 (1975)

  • [39]

    I. Thompson, M. Nagarajan, J. Lilley, Nucl. Phys. A505, 84 (1989)

  • [40]

    M. Harakeh, J. Van Popta, A. Sahaet al., Nucl. Phys. A344, 15 (1980)

  • [41]

    H. Abele, H. Hauser, A. Körberet al., Zeitschrift für Physik A Atomic Nuclei326, 373 (1987)

  • [42]

    N. Shimizu, T. Mizusaki, Y. Utsunoet al., Comput. Phys. Commun.244, 372 (2019)

  • [43]

    C. Yuan, T. Suzuki, T. Otsukaet al., Phys. Rev. C85, 064324 (2012)

  • [44]

    S. Lukyanov, A. Azhibekov, T. Issatayevet al., EPJ Web of Conferences311, 00017 (2024)

  • [45]

    A. Rudchik, E. Koshchy, A. Budzanowskiet al., Nucl. Phys. A609, 147 (1996)

Baidu
map