Understanding the isoscaling relationship in the fissioning system with evaluated data Supported by the National Natural Science Foundation of China (11790325, 11875323, 11875125, 11947410, 11705163, 11790320, 11790323, 11961141003), the National Key R&D Program of China (2018 YFA0404404), the Continuous Basic Scientific Research Project (WDJC-2019-09, WDJC-2019-13, BJ20002501) of the funding of China Institute of Atomic Energy, and Chinese-Polish Joint project by the National Science Foundation of China (11961131010),Chinese Physics C

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Understanding the isoscaling relationship in the fissioning system with evaluated data Supported by the National Natural Science Foundation of China (11790325, 11875323, 11875125, 11947410, 11705163, 11790320, 11790323, 11961141003), the National Key R&D Program of China (2018 YFA0404404), the Continuous Basic Scientific Research Project (WDJC-2019-09, WDJC-2019-13, BJ20002501) of the funding of China Institute of Atomic Energy, and Chinese-Polish Joint project by the National Science Foundation of China (11961131010)
Chinese Physics C ( IF 3.6 ) Pub Date : 2021-07-26 , DOI: 10.1088/1674-1137/ac0035
Yong-Jing Chen ₁ , Yang-Yang Liu ₁ , Li-Le Liu ₁ , Fang-Yuan Wang ₂ , Ying-Xun Zhang _{2,

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Affiliation

The isoscaling parameters $\alpha_{\rm eval}$ in the fissioning systems, i.e., those extracted from the Evaluated Nuclear Data Library (ENDF/B-VIII.0) and the Joint Evaluated Fission and Fusion File (JEFF-3.3), show an obvious difference from simple statistic model prediction where only the symmetry energy plays the dominant role. To explain the $\alpha_{\rm eval}$ as a function of the charge number of the fission fragment, a statistic scission point model is adopted. Our analysis shows that the effects of the shell correction, nuclear shape deformation, and intrinsic temperature of fission fragments are indispensable as well as the symmetry energy. Furthermore, an alternative method for extracting the intrinsic temperatures of fission fragments is proposed based on the isoscaling relationship in fission fragments. The intrinsic temperatures of the light fragments are higher than those of the heavy fragments.

更新日期：2021-07-26

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