• [1]

    R. Serber, Physical Review, 72: 1114 (1947)

  • [2]

    J. Wei, H. Chen, Y. Chen, Y. Chen, Y. Chi, C. Deng, H. Dong, L. Dong, S. Fang, J. Feng, S. Fu, L. He, W. He, Y. Heng, K. Huang, X. Jia, W. Kang, X. Kong, J. Li, T. Liang, G. Lin, Z. Liu, H. Ouyang, Q. Qin, H. Qu, C. Shi, H. Sun, J. Tang, J. Tao, C. Wang, F. Wang, D. Wang, Q. Wang, S. Wang, T. Wei, J. Xi, T. Xu, Z. Xu, W. Yin, X. Yin, J. Zhang, Z. Zhang, Z. Zhang, M. Zhou, and T. Zhu, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 600: 10 (2009)

  • [3]

    J. Yang, J. Xia, G. Xiao, H. Xu, H. Zhao, X. Zhou, X. Ma, Y. He, L. Ma, D. Gao, J. Meng, Z. Xu, R. Mao, W. Zhang, Y. Wang, L. Sun, Y. Yuan, P. Yuan, W. Zhan, J. Shi, W. Chai, D. Yin, P. Li, J. Li, L. Mao, J. Zhang, and L. Sheng, Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms, 317: 263 (2013)

  • [4]

    T. Kubo, M. Ishihara, N. Inabe, H. Kumagai, I. Tanihata, K. Yoshida, T. Nakamura, H. Okuno, S. Shimoura, and K. Asahi, Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms, 70: 309 (1992)

  • [5]

    H. Abderrahim, P. Kupschus, E. Malambu, P. Benoit, K. V. Tichelen, B. Arien, F. Vermeersch, P. D’hondt, Y. Jongen, S. Ternier, and D. Vandeplassche, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 463: 487 (2001)

  • [6]

    L. Yang and W. Zhan, Science China Technological Sciences, 58: 1705 (2015)

  • [7]

    Z.-Q. Chen, Nuclear Science and Techniques, 28: 184 (2017)

  • [8]

    M. Casolino, V. Bidoli, A. Morselli, L. Narici, M. P. D. Pascale, P. Picozza, E. Reali, R. Sparvoli, G. Mazzenga, M. Ricci, P. Spillantini, M. Boezio, V. Bonvicini, A. Vacchi, N. Zampa, G. Castellini, W. G. Sannita, P. Carlson, A. Galper, M. Korotkov, A. Popov, N. Vavilov, S. Avdeev, and C. Fuglesang, Nature, 422: 680 (2003)

  • [9]

    J. C. David, The European Physical Journal A, 51: 68 (2015)

  • [10]

    J. R. Grover, Physical Review, 126: 1540 (1962)

  • [11]

    A. I. Warwick, A. Baden, H. H. Gutbrod, M. R. Maier, J. P′eter, H. G. Ritter, H. Stelzer, H. H. Wieman, F. Weik, M. Freedman, D. J. Henderson, S. B. Kaufman, E. P. Steinberg, and B. D. Wilkins, Physical Review Letters, 48: 1719 (1982)

  • [12]

    L. Andronenko, A. Kotov, L. Vaishnene, W. Neubert, H. Barz, J. Bondorf, R. Donangelo, and H. Schulz, Physics Letters B, 174: 18 (1986)

  • [13]

    W. c. Hsi, K. Kwiatkowski, G. Wang, D. S. Bracken, E. Cornell, D. S. Ginger, V. E. Viola, N. R. Yoder, R. G. Korteling, F. Gimeno-Nogures, E. Ramakrishnan, D. Rowland, S. J. Yennello, M. J. Huang, W. G. Lynch, M. B. Tsang, H. Xi, Y. Y. Chu, S. Gushue, L. P. Remsberg, K. B. Morley, and H. Breuer, Physical Review Letters, 79: 817 (1997)

  • [14]

    P. Napolitani, K.-H. Schmidt, A. S. Botvina, F. Rejmund, L. Tassan-Got, and C. Villagrasa, Physical Review C, 70: 054607 (2004)

  • [15]

    M. V. Ricciardi, P. Armbruster, J. Benlliure, M. Bernas, A. Boudard, S. Czajkowski, T. Enqvist, A. Keli′c, S. Leray, R. Legrain, B. Mustapha, J. Pereira, F. Rejmund, K.-H. Schmidt, C. St′ephan, L. Tassan-Got, C. Volant, and O. Yordanov, Physical Review C, 73: 014607 (2006)

  • [16]

    P. Napolitani, K.-H. Schmidt, L. Tassan-Got, P. Armbruster, T. Enqvist, A. Heinz, V. Henzl, D. Henzlova, A. Keli′c, R. Pleskaˇc, M. V. Ricciardi, C. Schmitt, O. Yordanov, L. Audouin, M. Bernas, A. Lafriaskh, F. Rejmund, C. St′ephan, J. Benlliure, E. Casarejos, M. F. Ordonez, J. Pereira, A. Boudard, B. Fernandez, S. Leray, C. Villagrasa, and C. Volant, Physical Review C, 76: 064609 (2007)

  • [17]

    P. Napolitani, K.-H. Schmidt, and L. Tassan-Got, Journal of Physics G: Nuclear and Particle Physics, 38: 115006 (2011)

  • [18]

    E. L. Gentil, T. Aumann, C. O. Bacri, J. Benlliure, S. Bianchin, M. Bohmer, A. Boudard, J. Brzychczyk, E. Casarejos, M. Combet, L. Donadille, J. E. Ducret, M. Fernandez-Ordo~nez, R. Gernhouser, H. Johansson, K. Kezzar, T. Kurtukian-Nieto, A. Lafriakh, F. Lavaud, A. L. F`evre, S. Leray, J. Luhning, J. Lukasik, U. Lynen, W. F. J. Muller, P. Pawlowski, S. Pietri, F. Rejmund, C. Schwarz, C. Sfienti, H. Simon, W. Trautmann, C. Volant, and O. Yordanov, Physical Review Letters, 100: 022701 (2008)

  • [19]

    P. Napolitani and M. Colonna, Physical Review C, 92: 034607 (2015)

  • [20]

    F.-F. Duan, X.-Q. Liu, W.-P. Lin, R. Wada, J.-S. Wang, M.-R. Huang, P.-P. Ren, Y.-Y. Yang, P. Ma, J.-B. Ma, S.-L. Jin, Z. Bai, and Q. Wang, Nuclear Science and Techniques, 27: 131 (2016)

  • [21]

    C.-W. Ma, C.-Y. Qiao, T.-T. Ding, and Y.-D. Song, Nuclear Science and Techniques, 27: 111 (2016)

  • [22]

    J. Cugnon, D. L. Hote, and J. Vandermeulen, Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms, 111: 215 (1996)

  • [23]

    D. D. S. Coupland, W. G. Lynch, M. B. Tsang, P. Danielewicz, and Y. Zhang, Physical Review C, 84: 054603 (2011)

  • [24]

    M. Papa, T. Maruyama, and A. Bonasera, Physical Review C, 64: 024612 (2001)

  • [25]

    J. Su, W. Trautmann, L. Zhu, W.-J. Xie, and F.-S. Zhang, Physical Review C, 98: 014610 (2018)

  • [26]

    R. Charity, M. McMahan, G. Wozniak, R. McDonald, L. Moretto, D. Sarantites, L. Sobotka, G. Guarino, A. Pantaleo, L. Fiore, A. Gobbi, and K. Hildenbrand, Nuclear Physics A, 483: 371 (1988)

  • [27]

    B. Borderie and M. Rivet, Progress in Particle and Nuclear Physics, 61: 551 (2008)