本论文主要包含轻核反应基础理论研究和核数据应用研究两方面的内容。
A basic theoretical research on light nuclear reaction and the nuclear data calculation, as the two contents of this thesis have been performed.
但是由于较高的库仑势垒和离心势垒,丰质子轻核比较难以形成质子晕结构。
The high Coulomb and centrifugal barriers make it difficult for light proton-rich nuclei to possess halo structure.
你也将使用2D纹理与照相机闪光灯创建自己的动画的人群,看看你可以轻核渲染自己的CG。
You will also use 2D textures to create your own animated crowd with camera flashes, and see how you can light and render your own CG in NUKE.
由于在轻核中质子与中子处于同一壳,当用相互作用玻色子模型(ibm)描述轻核时,必须引入同位旋。
Because protons and neutrons in light nuclei fill the same shell, it is necessary to introduce isospin when the light nuclei are described by the interacting boson model (IBM).
计算结果表明,J粒子在轻核上的散射,没有出现第二个衍射峰;而J粒子在重核上的散射出现第二个衍射峰。
The calculation result shows that for the scattering on light nucleus, there is no second diffractive maximum, but on heavy nucleus, there is a second diffractive peak.
太阳和星星就是日常生活中轻原子核结合时释放的巨大能量的证明。
The sun and stars are daily proof of the great energy released when light atomic nuclei join together.
虽然福岛的核事故现在被判为同1986年的切尔诺贝利核灾难一样的等级,但是从人员伤亡和对环境的影响来看,福岛核事故远比切尔诺·比利为轻。
Although the Fukushima accident is now rated at the same level as the Chernobyl disaster in 1986, in terms of casualties and effects on the environment, it is far less significant.
太阳和星星就是日常生活中轻原子核结合时释放的巨大能量的证明。
The sun and stars are daily proof of the great energy released when light atomic nuclei join together .
因此可以把前角区轻带电粒子发射产额作为探测丰质子核结构的一种手段,也是一种新的验证一个核是否具有质子晕结构的实验证据。
It can be regarded as a possible probe to explore the structure of proton rich nuclei and a new way to provide an evidence for existing proton halo.
因此可以把前角区轻带电粒子发射产额作为探测丰质子核结构的一种手段,也是一种新的验证一个核是否具有质子晕结构的实验证据。
It can be regarded as a possible probe to explore the structure of proton rich nuclei and a new way to provide an evidence for existing proton halo.
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