Determination of Fusion Barrier Distributions from Quasielastic Scattering Cross Sections towards Superheavy Nuclei Synthesis

Determination of Fusion Barrier Distributions from Quasielastic Scattering Cross Sections towards Superheavy Nuclei Synthesis

In order to study the nucleus-nucleus interactions for syntheses of superheavy nuclei, we measured excitation functions for the quasielastic scattering of 48a+208Pb, 50Ti+208Pb, and 48Ca+248Cm using the gas-filled-type recoil ion separator GARIS. The quasielastic scattering events were clearly separ...

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Bibliographic Details
Published in:Journal of the Physical Society of Japan Vol. 87; no. 1; p. 1
Main Authors: Tanaka, Taiki, Narikiyo, Yoshihiro, Morita, Kosuke, Fujita, Kunihiro, Kaji, Daiya, Morimoto, Kouji, Yamaki, Sayaka, Wakabayashi, Yasuo, Tanaka, Kengo, Takeyama, Mirei, Yoneda, Akira, Haba, Hiromitsu, Komori, Yukiko, Yanou, Shinya, Gall, Benoît Jean-Paul, Asfari, Zouhair, Faure, Hugo, Hasebe, Hiroo, Huang, Minghui, Kanaya, Jumpei, Murakami, Masashi, Yoshida, Atsushi, Yamaguchi, Takayuki, Tokanai, Fuyuki, Yoshida, Tomomi, Yamamoto, Shoya, Yamano, Yuki, Watanabe, Kenyu, Ishizawa, Satoshi, Asai, Masato, Aono, Ryuji, Goto, Shin-ichi, Katori, Kenji, Hagino, Kouichi
Format: Journal Article
Language:English
Published: Tokyo The Physical Society of Japan 15-01-2018
Subjects:
Barriers
Deformation
Evaporation
Fusion
Inelastic scattering
Lead isotopes
Mathematical analysis
Nuclear physics
Nuclei (nuclear physics)
Recoil ions
Scattering
Scattering cross sections
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Summary:In order to study the nucleus-nucleus interactions for syntheses of superheavy nuclei, we measured excitation functions for the quasielastic scattering of 48a+208Pb, 50Ti+208Pb, and 48Ca+248Cm using the gas-filled-type recoil ion separator GARIS. The quasielastic scattering events were clearly separated from deep-inelastic events by using GARIS and its focal plan detectors, except for high-incident-energy points. The quasielastic barrier distributions were successfully extracted for these systems, and compared with coupled-channels calculations. The results of the calculations indicate that vibrational and rotational excitations of the colliding nuclei, as well as neutron transfers before contact, strongly affect the structure of the barrier distribution. For the reactions of 48Ca+208Pb and 50Ti+208Pb, a local maximum of the barrier distribution occurred at the same energy as the peak of the 2n evaporation cross section of the system. On the other hand, for the hot fusion reaction of 48Ca+248Cm, the 4n evaporation cross section of the system peaks at energies well above the maximum of the barrier distribution. This may be attributed to the deformation of the target nucleus. We argue that these findings can be utilized to locate the optimal energy for future searches for undiscovered superheavy nuclei.
ISSN:0031-9015
1347-4073