机译:碳核与铍靶的核碎片在0.95 gev /核子的能量下靶向
Institute for Theoretical and Experimental Physics National Research Center Kurchatov Institute;
Institute for Theoretical and Experimental Physics National Research Center Kurchatov Institute;
Institute for Theoretical and Experimental Physics National Research Center Kurchatov Institute;
Institute for Theoretical and Experimental Physics National Research Center Kurchatov Institute;
Institute for Theoretical and Experimental Physics National Research Center Kurchatov Institute;
Institute for Theoretical and Experimental Physics National Research Center Kurchatov Institute;
Institute for Theoretical and Experimental Physics National Research Center Kurchatov Institute;
Institute for Theoretical and Experimental Physics National Research Center Kurchatov Institute;
Institute for Theoretical and Experimental Physics National Research Center Kurchatov Institute;
Institute for Theoretical and Experimental Physics National Research Center Kurchatov Institute;
Institute for Theoretical and Experimental Physics National Research Center Kurchatov Institute;
Institute for Theoretical and Experimental Physics National Research Center Kurchatov Institute;
机译:碳核与铍靶的核碎片在0.95 gev /核子的能量下靶向
机译:碳和铍核碰撞中的累积质子在0.60,0.95和2.0 gev / nucleon的能量之间
机译:能量为每核子10.6 GeV的金核与乳胶核碰撞时,弹丸和目标碎片的方位角相关性
机译:能量为3.65 GEV /核的质子,〜4HE和〜(12)C核辐照的厚铜和铅靶的放射性
机译:来自重味的单电子的核修饰会在核能-核子质心能量= 200 GeV的金-金碰撞中衰减(RHIC Run-2)。
机译:利用一个围绕一个球体旋转的单核子模型分析了从6C8到56Ba90的偶偶核的基态旋转带的前四个激发态的能量。
机译:碳和硅核在4.5a GeV / c相互作用下产生的弹丸碎片的某些特征
机译:1.8 GeV /核子Fe-56核与光乳化核碰撞的靶碎片,以及级联蒸发模型