吸附分子层对球形金属纳米颗粒中局部表面等离子体激元的影响

N. Smirnova, A. Korotun, L. M. Titov
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摘要

本文研究了吸附分子层对球形金属纳米颗粒光学特性的影响。为了做到这一点,我们考虑了额外的一项,它考虑了金属和吸附物之间界面上电子的散射。得到了界面“金属吸附层”散射引起的相干损失参数的频率依赖关系的解析表达式。已经发现,吸附分子的存在导致了电子散射的各向异性,从而导致了这种系统的光学响应的各向异性。所指示的各向异性的结果是在光学特性的频率依赖中光谱的红外部分出现附加最大值。分析了金属吸附型两层球形纳米粒子极化张量分量、吸收截面和散射截面的频率依赖关系随几何参数变化的演化规律。结果表明,极化张量的实部、虚部和横分量的模量以及光谱红外部分的吸收和散射截面的弱极大值是由于吸附质诱导了态的局部密度而产生的。找出了不同金属芯的等尺寸纳米粒子的吸收截面和散射截面最大值发生位移的原因。在极化张量分量的频率依赖性和吸收和散射截面上存在由表面电子散射的振荡贡献引起的小尺度振荡。证明了具有恒定几何参数和含量的金属吸附粒子的吸收截面的位置和最大值与纳米粒子所处介质的介电常数的关系。
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An influence of the adsorbed molecules layer on the localized surface plasmons in the spherical metallic nanoparticles
An influence of the adsorbed molecules layer on the optical characteristics of the spherical metallic nanoparticles has been studied in the work. In order to do this one considers the additional term which takes into account the scattering of electrons at the interface between metal and adsorbate. The analytical expressions for the frequency dependences for the parameter of coherence loss due to the scattering at the interface “metal – adsorbed layer” have been obtained. It has been found that the presence of the adsorbed molecules results in the electron scattering anisotropy, and, hence, in the anisotropy of the optic response of such systems. The result of the indicated anisotropy is the appearance of the additional maximum in the infrared part of the spectrum in the frequency dependences for the optical characteristics. An evolution of the frequency dependences for the components of the polarizability tensor and the absorption cross-section and scattering cross-section for the two-layer spherical nanoparticles of the type “metal – adsorbate” under the variation of their geometrical parameters has been analyzed. It has been shown that the weak maximum of the real, imaginary parts and the module of the transverse component of the polarizability tensor and the absorption and scattering cross-sections in the infrared part of the spectrum appears due to inducing of the local density of the states by adsorbate. The reason of the shift of the maxima of the absorption cross-section and scattering cross-section for the nanoparticles of the constant sizes with the cores of different metals has been found. It has been demonstrated the existence of the small-scale oscillations at the frequency dependences for the components of the polarizability tensor and at the absorption and scattering cross-sections, caused by an oscillating contribution of the surface electron scattering. The dependence of the location and the value of the maximum of the absorption cross-section for the particle “metal – adsorbate” with the constant geometrical parameters and content on the dielectric permittivity of the medium, in which the nanoparticle is situated, has been proved.
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