Multiple multipole method with automatic multipole setting applied to the simulation of surface plasmons in metallic nanostructures

Esteban Moreno; Daniel Erni; Christian Hafner; Rudiger Vahldieck

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Multiple multipole method with automatic multipole setting applied to the simulation of surface plasmons in metallic nanostructures

机译：自动多极设置的多极方法在金属纳米结构表面等离激元模拟中的应用

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Highly accurate computations of surface plasmons in metallic nanostructures with various geometries are presented. Calculations for cylinders with irregular cross section, coupled structures, and periodic gratings are shown. These systems exhibit a resonant behavior with complex field distribution and strong field enhancement, and therefore their computation requires a very accurate numerical method. It is shown that the multiple multipole (MMP) method, together with an automatic multipole setting (AMS) procedure, is well suited for these computations. An AMS technique for the two-dimensional MMP method is presented. It relies on the global topology of each domain boundary to generate a distribution of numerically independent multipole expansions. This technique greatly facilitates the MMP modeling.

机译：提出了具有各种几何形状的金属纳米结构中表面等离激元的高精度计算。显示了具有不规则横截面，耦合结构和周期性光栅的圆柱的计算。这些系统表现出具有复杂的场分布和强场增强的共振行为，因此，它们的计算需要非常精确的数值方法。结果表明，多极点（MMP）方法以及自动多极点设置（AMS）程序非常适合这些计算。提出了一种用于二维MMP方法的AMS技术。它依靠每个域边界的全局拓扑来生成数值独立的多极扩展的分布。此技术极大地促进了MMP建模。

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《Journal of the Optical Society of America, A. Optics, image science, and vision》 |2002年第1期|共11页
作者
Esteban Moreno; Daniel Erni; Christian Hafner; Rudiger Vahldieck;
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中图分类光学;
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1. Multiple multipole method with automatic multipole setting applied to the simulation of surface plasmons in metallic nanostructures [J] . Esteban Moreno, Daniel Erni, Christian Hafner, Journal of the Optical Society of America, A. Optics, image science, and vision . 2002,第1期

机译：自动多极设置的多极方法在金属纳米结构表面等离激元模拟中的应用
2. Fast multipole method applied to Lagrangian simulations of vortical flows [J] . Ricciardi Tulio R., Wolf William R., Bimbato Alex M. Communications in Nonlinear Science and Numerical Simulation . 2017,第OCTa期

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3. Computationally Efficient Canonical Molecular Dynamics Simulations by Using a Multiple Time-Step Integrataor Algorithm Combined with the Particle Mesh Ewald Method and with the Fast Multipole Method [J] . MASAAKIKAWATA Journal of Computational Chemistry: Organic, Inorganic, Physical, Biological . 2000,第3期

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5. Geodynamic simulations using the fast multipole boundary element method. [D] . Drombosky, Tyler W. 2014

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7. Multiple Multipole Method with Automatic Multipole Setting Applied to the Simulation of Surface Plasmons in Metallic Nanostructures [O] . Esteban Moreno, Daniel Erni, Christian Hafner, 2002

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8. Multipole Plasmon Modes at the Surface of a Conducting Solid. (Reannouncementwith New Availability Information) [R] . Quinn, J. J. 1992

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Multiple multipole method with automatic multipole setting applied to the simulation of surface plasmons in metallic nanostructures

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