\begin{document}$A_1^{1/3}+A_2^{1/3}$\end{document} . The correlation of the potential depth and radius parameters with \begin{document}$A_1^{1/3}+A_2^{1/3}$\end{document} is also revealed within the limitations of the diffuseness parameter formula. Because the incident energies of most of the analyzed reactions are below or around the Coulomb barrier, the energy dispersion relation between the real and imaginary potentials is considered in order to investigate the ratio between the imaginary and real potential well depths, resulting in an expression of \begin{document}$W/V$\end{document} . Within the limitation of the volume integrals calculated with the S\begin{document}$\tilde{a}$\end{document}o Paulo potential, parameterized formulas for the depth and radius parameters are obtained. The systematic Woods-Saxon potential parameters derived in the present work can reproduce not only the experimental data of elastic scattering angular distributions induced by 11B, 12C, and 16O but also some elastic scattering induced by other heavy-ions."> Systematic study of the Woods-Saxon potential parametersbetween heavy-ions -
  • [1]

    C. J. Lin, H. M. Jia, H. Q. Zhanget al., Phys. Rev. C79, 064603 (2009

  • [2]

    M. Y. H. Farag, E. H. Esmael, and H. M. Maridi, Phys. Rev. C90, 034615 (2014

  • [3]

    W. H. Dickhoff and R. J. Charity, Prog. Part. Nucl. Phys.105, 252 (2018

  • [4]

    N. T. Zhang, Y. D. Fang, P. R. S. Gomeset al., Phys. Rev. C90, 024621 (2014

  • [5]

    V. Avrigeanu and M. Avrigeanu, Phys. Rev. C91, 064611 (2015

  • [6]

    T. Furumoto, Y. Sakuragi, and Y. Yamamoto, Prog. Theor. Phys. Supplement196, 219 (2012

  • [7]

    M. A. G. Alvarez, L. C. Chamon, M. S. Husseinet al., Nucl. Phys. A723, 93 (2003

  • [8]

    F. G. Perey, Phys. Rev. C131, 745 (1963

  • [9]

    J. M. Lohr and W. Haeberli, Nucl. Phys. A723, 381 (1974

  • [10]

    J. Rapaport, V. Kulkarni, and R. Finlay, Nucl. Phys. A330, 15 (1979

  • [11]

    A. Kumar, S. Kailas, S. Rathiet al., Nucl. Phys. A776, 105 (2006

  • [12]

    L. C. Chamon, B. V. Carlson, L. R. Gasqueset al., Phys. Rev. C66, 014610 (2002

  • [13]

    N. Wang, K. Zhao, W. Scheidet al., Phys. Rev. C77, 014603 (2008

  • [14]

    N. Wang and W. Scheid, Phys. Rev. C78, 014607 (2008

  • [15]

    Y. P. Xu and D. Y. Pang, Phys. Rev. C87, 044605 (2013

  • [16]

    L. Gan, Z. H. Li, H. B. Sunet al., Sci. China-Phys. Mech. Astron.60, 082013 (2017

  • [17]

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

  • [18]

    J. E. Poling, E. Norbeck, and R. R. Carlsoni, Phys. Rev. C13, 648 (1976

  • [19]

    G. Igo, Phys. Rev.115, 1665 (1959

  • [20]

    M. H. Macfarlane and S. C. Pieper, A. PTOLEMY, Argonne National Laboratory, unpublished, 1978

  • [21]

    M. Evers, M. Dasgupta, D. J. Hindeet al., Phys. Rev. C78, 034614 (2008

  • [22]

    G. R. Satchler, Phys Lett. B58, 408 (1975

  • [23]

    M. A. Nagarajan, C. C. Mahaux, and G. R. Satchler, Phys Rev. Lett.54, 1136 (1985

  • [24]

    B. R. Fulton, D. W. Banes, J. S. Lilleyet al., Phys Lett. B162, 55 (1985

  • [25]

    L. Yang, C. J. Lin, H. M. Jiaet al., Phys Rev. Lett.119, 042503 (2017

  • [26]

    H. Feshbach, Annual Review of Nuclear Science8, 49 (1958

  • [27]

    S. J. Waldecker, C. Barbieri, and W. H. Dickhoff, Phys. Rev. C84, 34616 (2011

  • [28]

    A. S. Freitas, L. Marques, X. X. Zhanget al., Braz. J. Phys.46, 120 (2016

  • [29]

    T. Tachikawa, N. Kato, H. Fujitaet al., Nucl. Phys. A484, 125 (1988

  • [30]

    T. Al-Abdullah, F. Carstoiu, X. Chenet al., Phys. Rev. C81, 035802 (2010

  • [31]

    S. Kubono, K. Morita, M. H. Tanakaet al., Phys. Lett. B127, 19 (1983

  • [32]

    M. Buenerd, A. Lounis, J. Chauvinet al., Nucl. Phys. A424, 313 (1988

  • [33]

    C. C. Sahm, T. Murakami, J. G. Crameret al., Phys. Rev. C34, 2165 (1986

  • [34]

    C. W. Glover, K. W. Kemper, Parks L Aet al., Nucl. Phys. A337, 520 (1980

  • [35]

    H. S. Patel, B. Srinivasan, B. J. Royet al., Pramana-J. Phys.51, 433 (1998

  • [36]

    G. Ingold, H. G. Bohlen, M. Cloveret al., Z.Phys. A- Atoms and Nuclei305, 135 (1982

  • [37]

    B. J. Roy, M. G. Betigeri, M. L. Jhinganet al., Nucl. Phys. A564, 271 (1993

  • [38]

    S. Sodaye, K. Sudarshan, B. S. Tomaret al., Eur. Phys. J. A564, 371 (2002

  • [39]

    A. Shrivastava, S. Kailas, A. Chatterjeeet al., Phys. Rev. C63, 054602 (2001

  • [40]

    S. Santra, P. Singh, S. Kailaset al., Phys. Rev. C64, 024602 (2001

  • [41]

    S. Santra, P. Singh, S. Kailaset al., Phys. Rev. C60, 034611 (1999

  • [42]

    A. Cunsolo, M. C. Lemaire, M. C. Mermazet al., Phys. Rev. C10, 180 (1974

  • [43]

    C. F. Tenreiro, J. C. Acquadro, N. Liguoriet al., Study of the16O+64, 66, 68Zn reactions: fusion and elastic scattering. No. IFUSP-P-710. Brazil, Sao Paulo Univ., 1988. 11

  • [44]

    D. Abriola, D. DiGregorio, J. E. Testoniet al., Phys. Rev. C39, 546 (1989

  • [45]

    K. E. Rehm, H. J. Körner, M. Richteret al., Phys. Rev. C12, 1945 (1975

  • [46]

    S. Saha, S. K. Mandal, M. B. Chatterjeeet al., Pramana-J. Phys.53, 553 (1999

  • [47]

    V. Jha, B. J. Roy, A. Chatterjeeet al., Eur. Phys. J. A19, 347 (2004

  • [48]

    J. C. Werner, L. A. S. Leal, M. G. Munhozet al., Nucl. Phys. A781, 342 (2007

  • [49]

    R. Lichtenthäler, D. Pereira, and L. C. Chamon, Phys. Rev. C50, 3033 (1994

  • [50]

    F. Videbaek, R. B. Goldstein, L. Grodzinset al., Phys. Rev. C17, 954 (1977

  • [51]

    P. Singh, S. Kailas, A. Chatterjeeet al., Nucl. Phys. A555, 606 (1993

  • [52]

    G. Montagnoli, S. Beghini, F. Scarlassaraet al., J. Phys. G: Nucl. Part. Phys.23, 1431 (1997

  • [53]

    S. K. Charagi, S. K. Gupta, M. G. Betigeriet al., Phys. Rev. C48, 1152 (1993

  • [54]

    N. N. Deshmukh, V. Guimarães, E. Cremaet al., Phys. Rev. C92, 054615 (2015

  • [55]

    A. M. Stefanini, A. Tivelli, G. Montagnoliet al., Phys. Rev. C41, 1018 (1990

Baidu
map