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Cl, K and Ni induced reactions to synthesis SHN 273Rg
Indian Journal of Pure & Applied Physics ( IF 0.6 ) Pub Date : 2020-06-15 N Sowmya, H C Manjunatha, A M Nagaraja, N Dhananjaya
Indian Journal of Pure & Applied Physics ( IF 0.6 ) Pub Date : 2020-06-15 N Sowmya, H C Manjunatha, A M Nagaraja, N Dhananjaya
We have studied chlorine (Cl), potassium (K) and Nickel (Ni) induced reactions in the synthesis of 273Rg. We have studied the compound nucleus formation probability, survival probability and evaporation residue cross sections to synthesize superheavy element (SHN) 273Rg. The selected projectile-target combinations to synthesis 273Rg are 35,37Cl + 238,236Pu, 39-41K + 234-232U and 63,64Ni + 210,209Bi. From the study of PCN, Psur and σevr we have identified that 35Cl+238Pu is the most suitable projectile-target combination to synthesize 273Rg. We have also compared the present work with the experimental values available in literature.
中文翻译:
Cl,K和Ni诱导的合成SHN 273Rg的反应
我们已经研究了氯(Cl),钾(K)和镍(Ni)诱导的273 Rg合成中的反应。我们研究了复合核形成概率,存活概率和蒸发残留物截面,以合成超重元素(273 Ng)。合成273 Rg的选定弹丸目标组合为35,37 Cl + 238,236 Pu,39-41 K + 234-232 U和63,64 Ni + 210,209 Bi。通过对P CN,P sur和σevr的研究,我们确定了35 Cl + 238Pu是合成273 Rg的最合适的弹丸目标组合。我们还将当前工作与文献中提供的实验值进行了比较。
更新日期:2020-07-28
中文翻译:
Cl,K和Ni诱导的合成SHN 273Rg的反应
我们已经研究了氯(Cl),钾(K)和镍(Ni)诱导的273 Rg合成中的反应。我们研究了复合核形成概率,存活概率和蒸发残留物截面,以合成超重元素(273 Ng)。合成273 Rg的选定弹丸目标组合为35,37 Cl + 238,236 Pu,39-41 K + 234-232 U和63,64 Ni + 210,209 Bi。通过对P CN,P sur和σevr的研究,我们确定了35 Cl + 238Pu是合成273 Rg的最合适的弹丸目标组合。我们还将当前工作与文献中提供的实验值进行了比较。
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