受激锌(3d9)薄膜电子态的电荷转移机制和空间密度相关性

Li Chen, M. Hamasaki, H. Manaka, K. Obara
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引用次数: 5

摘要

在材料科学中,过渡金属的半填充三维轨道是控制合金和化合物特性的重要因素。本文介绍了锌膜长寿命内芯电子系统激发挑战的结果。本文报道了样品中9个点沿垂直方向的XPS测量结果。最明显的未来是卫星的存在,它比主线高出约4电子伏特。根据A. Kotani和K. Okada提出的电荷转移机制,明确了这些峰的起源分别为主峰c3d9L和卫星c3d9。由c3d9和c3d10L之间的能量差Δ eb和峰值强度比I+/I-计算出电荷转移能Δ和混合能T。在c3d10L强度变大的区域,Δ变小,1.2 Δdc = 5.5 eV, Udd = 5.5 eV。在纵向分析中,Zn3d9的强度分布表现为奇功能对称,Zn3d10L的强度分布表现为偶功能对称。只有C1s (288 eV)的强度分布与Zn3d9具有相同的空间相关性。在我们的实验中,样品也显示了组成元素的高迁移率。这表明受激锌原子中的电荷守恒表明Zn3d9与C2-结合。
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Charge Transfer Mechanism and Spatial Density Correlation of Electronic States of Excited Zinc (3d 9 ) Films
In material science, half filled 3d orbital of transition metals is essentially an important factor controlling characteristics of alloys and compounds. This paper presents a result of the challenge of excitation of inner-core electron system with long lifetime of zinc films. The advanced zinc films with excited inner-core electron, 3dn (n = 9, 8). We report experimental results of XPS measurements of 9 points in the sample along vertical direction, respectively. The most pronounced futures are existence of satellites, which are about 4 eV higher than the main lines. According to the charge transfer mechanism proposed by A. Kotani and K. Okada, it was clarified that the origins of these peaks are c3d9L for the main peak and c3d9 for the satellite, respectively. From the energy difference, δEB, and peak intensity ratio, I+/I-, between c3d9 and c3d10L, the energy for charge transfer, Δ, and mixing energy, T, were estimated. In the region where the intensity of c3d10L becomes large, Δ becomes small, 1.2 Δdc = 5.5 eV and Udd = 5.5 eV. In the analysis along vertical direction, intensity profile of Zn3d9 showed odd functional symmetry and that of Zn3d10L showed even functional symmetry. Only the intensity profile of C1s (288 eV) showed the same spatial correlation with Zn3d9. In our experiment, the sample also showed high mobility of the constituting elements. These suggest that charge conservation in excited zinc atom suggests combination between Zn3d9 and C2-.
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