283 resultados para Fort Leonard Wood (Mo.)
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研究了高电荷态离子129Xe28+轰击金属Au和Mo面产生的特征X射线谱。实验结果表明,在入射离子的电荷态和能量相同的条件下,对于核电荷数较小、原子质量较轻的靶原子,只有其内壳层的电子才能被激发而产生X射线,而核电荷数较大、原子质量较重的靶原子只有其较外壳层的电子能被激发而产生X射线。特征X射线的产额随入射离子动能的增加而增加。
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本工作实验研究低能高电荷态Ar13+离子与金属Mo面作用过程中Mo子受激发射X射线和X射线强度随入射能量的变化。实验结果表明,低速高电荷离子与金属表面原子相互作用可有效地激发靶原子或靶离子内壳层电子而发射X射线。
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在兰州重离子加速器国家实验室电子回旋共振离子源上用Si(Li)探测器观测到了不同动能的Ar15+和Ar16+离子与Mo面相互作用过程产生的x射线.在不同动能的Ar16+与Mo面作用过程中不仅能观测到Ar的K层x射线而且能观测到MoL层x射线.在不同动能的Ar15+入射下只能观测到MoL层x射线.实验结果表明,Ar的K层x射线的产额与入射离子的动能、作用过程中形成的空心原子携带的势能以及入射离子和靶原子x射线的竞争等有关,MoL层x射线随入射离子动能的增加而增加.
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观测了低速 (小于Bohr速度 )高电荷Ar17+离子与金属Mo面相互作用的X射线发射 ,以及ArKα ,KβX射线强度随入射离子动能的变化 .
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通过重离子融合蒸发反应16 O(82 Se +4n) 94 Mo局了94 Mo的高自旋态 .利用多探头探测器阵列GASP进行了在束γ测量 ,从而重新研究了94 Mo的高自旋态能级结构 .基于新发现的一些重要的连接跃迁 ,对94 Mo的高自旋态能级纲图做了重要修改 .将新的能级结构与壳模型计算进行了比较和讨论 .结果表明要正确的描述94 Mo的高自旋态 (自旋值大于 14 )能级结构 ,应考虑价中子在d5/ 2 ,g7/ 2 和h11/ 2 轨道上的激发 .
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IEECAS SKLLQG
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High-spin level structures of 94,95Mo have been reinvestigated via the 16O(82Se, xnγ)94,95Mo(x = 4, 3) reactions at E(82Se) = 460 MeV. The previously reported level schemes of these two nuclei have been largely modified up to ∼11 MeV in excitation energy due to identifications of some important linking transitions. Shellmodel calculations have been made in the model space of π(p1/2, g9/2, d5/2)4 and ν(d5/2, s1/2, d3/2, g7/2, h11/2)2(3) and compared with the modified level schemes. The structures of the newly assigned high-spin states in 94,95Mo have been discussed.
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The L-shell x-ray yields of Zr and Mo bombarded by slow Ar16+ ions are measured. The energy of the Ar16+ ions ranges from about 150keV to 350keV. The L-shell x-ray production cross sections of Zr and Mo are extracted from these yields data. The explanation of these experimental results is in the framework of the adiabatic directionization and the binding energy modified BEA approximation. We consider, in the slow asymmetric collisions such as Ar and Mo/Zr, the transient united atoms (UA) are formed during the ion-surface interaction and the direct-ionization is the main mechanism for the inner-shell vacancy production. Generally, the theoretical results are in good agreement with the experimental data.
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L-shell X-ray spectra of Mo surface induced by Xe25+ and Xe29+ were measured. The X-ray intensity was obtained in the kinetic energy range of the incident ions from 350 to 600 keV. The relationship of X-ray intensity with kinetic energy of the projectile and its charge state were studied, and the simple explanation was given.
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We studied the characteristic X-ray spectra produced by the interaction of highly charged ions of X-129(q+) (q =25, 26, 27) with surface of metallic Mo. The experimental result shows that highly charged ions can excite the characteristic X-ray spectra of L-shell of Mo when the beam' s intensity is not more than 120 nA. The X-ray yield of single ion reaches a quantitative level of 10(-8) and increases with the increment of the ion' s kinetic energy and ionic charge (potential energy). By measuring the X-ray spectra of Mo-L alpha(1) the M-level lifetime of Mo atom is estimated by using Heisenberg uncertainty relation.
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研究了高电荷态离子129Xeq+(q=25,26,27)入射金属Mo面产生的特征X射线谱.实验结果表明,在束流强度小于120nA条件下,高电荷态离子129Xeq+可以激发MoL壳层特征X射线谱.单离子X射线相对产额可达10-8量级,特征X射线的相对产额随入射离子的动能和电荷态(势能)的增加而增加.通过Mo子的Lα1特征X射线谱,利用Heisenberg不确定关系对Mo子的第M能级寿命进行了估算.
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本实验工作是在兰州重离子加速器国家实验室ECR离子源完成。实验采用能量为336keV的低能高电荷态Ar16+离子轰击Au、Mo属靶,入射离子与靶表面之间的夹角分别是20°,25°,……,80°,入射角与出射角之和为90°。测量了不同角度下MoLα、Lβ,Au的Mα和Ar的Kα特征X射线谱,对实验谱进行了高斯拟合,计算了不同入射角下的各条X射线的产额和产生截面,并将靶原子发射出的X射线截面与ECPSSR和带结合能修正的BEA理论计算的结果进行了比较。发现当入射角较小时,Ar16+与金属靶相互作用时所产生出的各条特征X射线截面随入射角的增加而增加,当入射角达到40°左右后X射线截面基本上保持不变。与ECPSSR计算值相比,本实验中Au的X射线截面比较接近,实验值比ECPSSR计算值小不到一个量级;而MoX射线截面实验值比ECPSSR计算值大3-4个量级,但产额与带结合能修正的BEA计算值很接近