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2024年10月30日

Isotopic Dependence of Production Cross Sections of Superheavy Nuclei in Hot Fusion Reactions

  • The dinuclear system model has been further developed by introducing the barrier distribution function method in the process of heavy-ion capture and fusion to synthesize superheavy nuclei. The capture of two colliding nuclei, formation and de-excitation process of compound nucleus are decribed by using empirical coupled channel model, solving master equation numerically and statistical evaporation model, respectively. Within the framework of the di-nuclear system model, the fusion-evaporation excitation functions of the systems 48Ca(243Am, 3n—5n)288—286115 and 48Ca(248Cm, 3n—5n)293—291116 are calculated, which are used for synthesizing new superheavy nuclei at Dubna in recent years. Isotopic dependence of production cross sections with double magic nucleus 48Ca bombarding actinide targets U,Np,Pu,Am,Cm to synthesize superheavy nuclei with charged numbers Z=112—116 is analyzed systematically. Based on these analysis, the optimal projectile-target combination and the optimal excitation energy are proposed. It is shown that shell correction energy and neutron separation energy will play an important role on the isotopic dependence of production cross sections of superheavy nuclei.
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  • [1] . Hofmann S, Muzenberg G. Rev. Mod. Phys., 2000, 72: 7332. Hofmann S, He berger F P, Ackermann D et al. Eur. Phys.J., 2002, A14: 1473. Oganessian Yu Ts, Utyonkoy V K, Lobanov Yu V et al.Phys. Rev., 2004, C69: R0216014. Oganessian Yu Ts, Utyonkoy V K, Lobanov Yu V et al.Phys. Rev. Lett., 1999, 83: 31545. Oganessian Yu Ts, Yeremin A V, Popeko A G et al. Nature,1999, 400: 2426. Morita K, Morimoto K, Kaji D et al. J. Phys. Soc. Jpn,2004, 73: 25937. GAN Z G, FAN H M, QIN Z et al. HEP NP, 2004, 28(4):332. (in Chinese)(甘再国,范红梅,秦芝等.高能物理与核物理, 2004, 28(4)332)8. GAN Z G, GUO J S, WU X L et al. Eur. Phys. J., 2004,A20: 3859. Bjornholm S, Swiatecki W J. Nucl. Phys., 1982, A391: 47110. Aritomo Y, Wada T, Ohta M. Phys. Rev., 1999, C59: 79611. Antonenko N V, Cherepanov E A, Nasirov A K et al. Phys.Lett., 1993, B319: 42512. Adamian G G, Antonenko N V, ScheidWet al. Nucl. Phys.,1998, A633: 40913. Zagrebaev V I. Phys. Rev., 2001, C64: 03460614. FENG Z Q, JIN G M, FU F et al. Nucl. Phys., 2006, A771:5015. LI W, WANG N, LI J F et al. Europhys. Lett., 2003, 64:75016. Nasirov A, Fukushima A, Toyoshima Y et al. Nucl. Phys.,2005, A759: 34217. FENG Z Q, JIN G M, FU F et al. Chin. Phys. Lett., 2005,22(4): 84618. Oganessian Yu Ts, Utyonkoy V K, Lobanov Yu V et al.Phys. Rev., 2004, C70: 06460919. Adamian G G, Antonenko N V, Scheid W. Phys. Rev.,2004, C69: 01460720. Moller P, Nix J R, Myers W D et al. At. Data and Nucl.Data Tables, 1995, 59: 18521. Oganessian Yu Ts, Utyonkoy V K, Lobanov Yu V et al.Phys. Rev., 2001, C63: R011301
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Get Citation
FENG Zhao-Qing, JIN Gen-Ming, FU Fen and LI Jun-Qing. Isotopic Dependence of Production Cross Sections of Superheavy Nuclei in Hot Fusion Reactions[J]. Chinese Physics C, 2007, 31(4): 366-370.
FENG Zhao-Qing, JIN Gen-Ming, FU Fen and LI Jun-Qing. Isotopic Dependence of Production Cross Sections of Superheavy Nuclei in Hot Fusion Reactions[J]. Chinese Physics C, 2007, 31(4): 366-370. shu
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Received: 2006-08-01
Revised: 2006-09-06
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Isotopic Dependence of Production Cross Sections of Superheavy Nuclei in Hot Fusion Reactions

    Corresponding author: FENG Zhao-Qing,
  • Center of Theoretical Nuclear Physics, National Laboratory of Heavy Ion Accelerator of Lanzhou,Lanzhou 730000, China2 Institute of Modern Physics, Chinese Academy of Sciences, Lanzhou 730000, China3 Graduate University of Chinese Academy of Sciences, Beijing 100049, China

Abstract: The dinuclear system model has been further developed by introducing the barrier distribution function method in the process of heavy-ion capture and fusion to synthesize superheavy nuclei. The capture of two colliding nuclei, formation and de-excitation process of compound nucleus are decribed by using empirical coupled channel model, solving master equation numerically and statistical evaporation model, respectively. Within the framework of the di-nuclear system model, the fusion-evaporation excitation functions of the systems 48Ca(243Am, 3n—5n)288—286115 and 48Ca(248Cm, 3n—5n)293—291116 are calculated, which are used for synthesizing new superheavy nuclei at Dubna in recent years. Isotopic dependence of production cross sections with double magic nucleus 48Ca bombarding actinide targets U,Np,Pu,Am,Cm to synthesize superheavy nuclei with charged numbers Z=112—116 is analyzed systematically. Based on these analysis, the optimal projectile-target combination and the optimal excitation energy are proposed. It is shown that shell correction energy and neutron separation energy will play an important role on the isotopic dependence of production cross sections of superheavy nuclei.

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