A grazing Kirkpatrick-Baez (K-B) microscope was designed for hard x-ray (8keV; Cu Ka radiation) imaging in Inertial Confinement Fusion (ICF) diagnostic experiments, Ray tracing software was used to simulate optical system performance. The optimized theoretical resolution of K-B microscope was about 2 micron and better than 10 micron in 200 micron field of view Tungsten and boron carbide were chosen as multilayer materials and the multilayer was deposited onto the silicon wafer substrate and the reflectivity was measured by x-ray diffraction (XRD). The reflectivity of supermirror was about 20 % in 0.3 % of bandwidth. 8keV Cu target x-ray tube source was used in x-ray imaging experiments and the magnification of 1 x and 2* x-ray images were obtained.
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机译:设计了一种用于惯性监禁融合(ICF)诊断实验的硬X射线(8KeV; Cu Ka辐射)成像的Grazing Kirkpatrick-Baez(K-B)显微镜。光线跟踪软件用于模拟光学系统性能。 KB显微镜的优化理论分辨率约为2微米,在200微米的200微米视场中优于10微米,选择钨和碳化硼作为多层材料,并且将多层沉积在硅晶片基板上,通过X射线测量反射率。衍射(XRD)。带宽的0.3%的超高镜的反射率约为20%。 8KeV Cu靶X射线管源用于X射线成像实验,获得1×和2 * X射线图像的放大率。
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机译:用等离子体约束实现重力场的动态控制热核聚变(TLTS)方法,通过热辐射等离子体绝缘的壁反应堆防止中子辐射并节省磁场和等离子体的混合,使用旋转磁场的异步磁惯性约束反应堆(AMITYAR和HFM)为实施该方法,在该反应器中点燃热核反应的方法,爆炸式等离子发生器(VIP)的实施方法,以及具有HFM的特立普安瓿,以实现D + T反应和具有超高温热度的HFM D +3НЕ和1Н+11В的高温反应
