• [1]

    L. Canto, P. Gomes, R. Donangelo et al., Physics Reports 424, 1 (2006

  • [2]

    G. Baur and D. Trautmann, Physics Reports 25, 293 (1976

  • [3]

    M. Yahiro, Y. Iseri, H. Kameyama et al., Progress of Theoretical Physics Supplement 89, 32 (1986

  • [4]

    J. R. Oppenheimer and M. Phillips, Physical Review 48, 500 (1935

  • [5]

    R. Serber, Physical Review 72, 1008 (1947

  • [6]

    E. W. Hamburger, B. L. Cohen, and R. E. Price, Physical Review 121, 1143 (1961

  • [7]

    J. R. Wu, C. C. Chang, and H. D. Holmgren, Physical Review C 19, 370 (1979

  • [8]

    N. Matsuoka, M. Kondo, A. Shimizu et al., Nuclear Physics A 345, 1 (1980

  • [9]

    V. Punjabi, C. Perdrisat, P. Ulmer et al., Physical Review C 39, 608 (1989

  • [10]

    R. Philpott, W. Pinkston, and G. Satchler, Nuclear Physics A 119, 241 (1968

  • [11]

    R. Johnson and P. Soper, Physical Review C 1, 976 (1970

  • [12]

    T. Ye, Y. Watanabe, and K. Ogata, Physical Review C 80, 014604 (2009

  • [13]

    M. Avrigeanu and A. M. Moro, Physical Review C 82, (2010

  • [14]

    Y. S. Neoh, K. Yoshida, K. Minomo et al., Physical Review C 94, (2016

  • [15]

    M. Gomez-Ramos and A. M. Moro, Physical Review C 95, (2017

  • [16]

    C. Bertulani and L. Canto, Nuclear Physics A 539, 163 (1992

  • [17]

    M. Avrigeanu and V. Avrigeanu, Physical Review C 95, (2017

  • [18]

    S. Nakayama, N. Furutachi, O. Iwamoto et al., Physical Review C 98, 044606 (2018

  • [19]

    Y. Matsuo and H. Nei, Energy Policy 124, 180 (2019

  • [20]

    J. Wallenius, Annals of Nuclear Energy 125, 74 (2019

  • [21]

    D. Durant, Technology in Society 31, 150 (2009

  • [22]

    Z. Ma, R. P. Gamage, T. Rathnaweera et al., Applied Clay Science 168, 436 (2019

  • [23]

    H. Wang, H. Otsu, H. Sakurai et al., Physics Letters B 754, 104 (2016

  • [24]

    S. Kawase, K. Nakano, Y. Watanabe et al., Progress of Theoretical and Experimental Physics 2017, (2017

  • [25]

    H. Wang, H. Otsu, H. Sakurai et al., Progress of Theoretical and Experimental Physics 2017, 021D01 (2017

  • [26]

    H. An and C. Cai, Physical Review C 73, 054605 (2006

  • [27]

    J. Bojowald, H. Machner, H. Nann et al., Physical Review C 38, 1153 (1988

  • [28]

    W. Daehnick, J. Childs, and Z. Vrcelj, Physical Review C 21, 2253 (1980

  • [29]

    R. Plukienė, A. Plukis, L. Juodis et al., Nuclear Engineering and Design 330, 241 (2018

  • [30]

    G. Yang, S. Xu, M. Jin et al., Chinese Physics C 43, 104101 (2019

  • [31]

    V. Eismont, A. Prokofyev, A. Smirnov et al., Physical Review C 53, 2911 (1996

  • [32]

    V. Gol’danskii, E. Tarumov, and V. Pen’kina, in Doklady Akad. Nauk SSSR, Vol. 101 (Inst. of Chemical Physics, 1955).

  • [33]

    P. Lisowski, C. Bowman, G. Russell et al., Nuclear Science and Engineering 106, 208 (1990

  • [34]

    S. Xu, G. Yang, M. Jin et al., Physical Review C 101, (2020

  • [35]

    J. Aichelin, Physics Reports 202, 233 (1991

  • [36]

    G. F. Bertsch and S. D. Gupta, Physics Reports 160, 189 (1988

  • [37]

    I. Angeli and K. P. Marinova, Atomic Data and Nuclear Data Tables 99, 69 (2013

  • [38]

    A. Trzcińska, J. Jastrzbski, P. Lubiński et al., Physical review letters 87, 082501 (2001

  • [39]

    J. Cugnon, D. L’Hote, and J. Vandermeulen, Nuclear Instruments and Methods B 111, 215 (1996

  • [40]

    C. Xiangzhou, F. Jun, S. Wenqing et al., Physical Review C 58, 572 (1998

  • [41]

    R. Carlson, Atomic data and nuclear data tables 63, 93 (1996

  • [42]

    R. Voss and R. Wilson, Proceedings of the Royal Society of london. Series A. Mathematical and Physical Sciences 236, 41 (1956

  • [43]

    W. Schimmerling, T. J. Devlin, W. W. Johnson et al., Physical Review C 7, 248 (1973

  • [44]

    K. Minomo, K. Washiyama, and K. Ogata, Journal of Nuclear Science and Technology 54, 127 (2017