1) participants in collisions
参与碰撞核子数
2) number of nucleon-nucleon collisions
核子-核子碰撞数
3) impact parameter
碰撞参数
1.
These three - body coincident events were sorted as a function of the impact parameter using linear momentum transfer and total transverse momenta methods.
在前角测量了30MeV/u40Ar+159Tb反应中两裂片符合下的轻粒子和复杂碎片,利用线性动量转移和总横向动量方法对三体符合事件进行了碰撞参数分类。
2.
This enhancement becomes more obvious with the increase of mass of the particles,or with the increase of the impact parameters.
该现象随着粒子质量增大和碰撞参数增大而变得更加明显。
3.
incident energy, impact parameter and collision system) is studied by using the BUU model.
用仅密度相关的BUU模型讨论了在重离子碰撞中能量储藏与入射道动力学(入射能、碰撞参数、碰撞系统)的依赖关系,以及碰撞系统的极不对称性对激发能的影响。
4) collision parameter
碰撞参数
1.
To study the pardons spatial dependence,this paper presents a method to induce the collision parameter with traverse energy which could be measured in the experiment.
为获得核内部分子分布的空间位置,简单介绍了用实验可测值横动能来推算空间量碰撞参数的方法。
5) the number fluctuation of NN collisions
核子-核子碰撞数起伏
6) the number of binary nucleon-nucleon collisions
二元核子-核子碰撞数
1.
Using the Glauber model,the numbers of participants,spectators and as well as the number of binary nucleon-nucleon collisions were calculated in high-energy heavy-ion collisions.
利用Glauber模型,计算出核-核碰撞中的参与者数、旁观者数及二元核子-核子碰撞数。
补充资料:核子数
分子式:
分子量:
CAS号:
性质:见质量数。
分子量:
CAS号:
性质:见质量数。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条