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摘要

我们研究了te偏振光在直径从纳米到微米的圆形铝线和管的散射和吸收过程中的等离子体共振。在管的情况下,我们保持其厚度在纳米级,但厚度足以允许使用经典的电磁学分析。这里采用了散射问题的解析解。为了在可见光范围内表征铝复介电常数函数,我们使用了实验数据。我们的研究结果表明,在深紫外范围内,如果铝丝和纳米细管的半径小于50 nm,则显示出强烈的等离子体共振,而即使半径大到2 μ m,也可以看到不太亮的多极共振。
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Transverse Plasmon Resonances of Aluminium Circular Wire and Tube
We investigate the plasmon resonances in the scattering and absorption of the TE-polarized light by the solid aluminium wires and tubes of circular cross-section with diameters from nanometers to microns. In the case of tube we keep its thickness at the nanoscale however thick enough to allow using the classical electromagnetics analysis. Here, analytical solution of the scattering problem is applied. To characterize the aluminium complex dielectric permittivity function in the visible range, we use experimental data. Our results show that aluminium wires and nanothin tubes display intensive plasmon resonances in the scattering in the deep ultra-violet range if their radius is less than 50 nm however less bright multipole resonances can be seen even if it is as large as 2 µm.
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