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Modeling the optical response of highly faceted metal nanoparticles with a fully 3D boundary element method

机译：使用完全3D边界元方法对高度多面金属纳米颗粒的光学响应进行建模

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A study was conducted to develop a optical response model of highly faceted metal nanoparitcles by using a 3D boundary element method (BEM). The study also can be used to develop model for rod-to-octahedron transition. The BEM for axially symmetric particles can provide optical spectra in decorated nanorods, decahedrons, and nanostars. Gold nanorods were synthesized during the study in water and transfer into N,N-dimethylformamide (DMF). The study also examine the chemical growth of axially symmetric gold nanorods into octahedrons. It was observed during the study that the modeling of the cross-section is simple for a cylinder, while modeling of cross-section of prism require total width and the curvature of the edges. The study concluded that this method is computationally more efficient the DDA of FDTD techniques. © 2008

机译：通过使用3D边界元素方法（BEM）进行了研究，以开发高度多面金属纳米粒子的光学响应模型。该研究还可用于开发棒到八面体过渡的模型。轴对称粒子的BEM可以在装饰的纳米棒，十面体和纳米星中提供光谱。金纳米棒在研究过程中在水中合成，并转移到N，N-二甲基甲酰胺（DMF）中。该研究还研究了轴对称金纳米棒向八面体的化学生长。在研究过程中观察到，圆柱的横截面建模很简单，而棱柱的横截面建模则需要总宽度和边缘曲率。研究得出结论，该方法在计算上更有效地实现了FDTD技术的DDA。 ©2008

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Myroshnychenko Viktor; Carbó-Argibay E.; Pastoriza-Santos Isabel; Pérez-Juste Jorge; Liz-Marzán Luis Manuel; García de Abajo Francisco Javier;
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1. Modeling The Optical Response Of Highly Faceted Metal Nanoparticles With A Fully 3d Boundary Element Method [J] . Viktor Myroshnychenko, Enrique Carbo, Argibay, Advanced Materials . 2008,第22期

机译：用全3d边界元方法模拟高度切面的金属纳米粒子的光学响应
2. A hybrid numerical technique, combining the finite-element and boundary-element methods, for modeling the 3D response of 2D scatterers [J] . Zhang B., Tassoulas JL., Papageorgiou AS. Bulletin of the Seismological Society of America . 1998,第4期

机译：结合有限元和边界元方法的混合数值技术，用于对二维散射体的3D响应进行建模
3. A coupled finite element-boundary element method for modeling Diffusion equation in 3D multi-modality optical imaging [J] . Subhadra Srinivasan, Hamid R. Ghadyani, Brian W. Pogue, Biomedical Optics Express . 2010,第2期

机译：3D多模态光学成像中扩散方程建模的有限元边界元耦合方法
4. Modeling nonlinear optical effects in arbitrary nanoparticles by the boundary element method [C] . Jouni M?kitalo, Saku Suuriniemi, Martti Kauranen International Workshop on Theoretical and Computational Nano-Photonics . 2012

机译：边界元法在任意纳米粒子中建模非线性光学效应
5. Electrodynamic and electronic structure methods to model surface enhanced spectroscopy and molecule-metal nanoparticle optical coupling . [D] . Morton, Seth M. 2012

机译：用于表面增强光谱和分子-金属纳米粒子光学耦合建模的电动力学和电子结构方法。
6. A coupled finite element-boundary element method for modeling Diffusion equation in 3D multi-modality optical imaging [O] . Subhadra Srinivasan, Hamid R. Ghadyani, Brian W. Pogue, 2010

机译：3D多模态光学成像中扩散方程建模的有限元边界元耦合方法
7. A coupled finite element-boundary element method for modeling Diffusion equation in 3D multi-modality optical imaging [O] . Srinivasan, Subhadra, Ghadyani, Hamid R., Pogue, Brian W., 2010

机译：3D多模态光学成像中扩散方程建模的有限元边界元耦合方法

Modeling the optical response of highly faceted metal nanoparticles with a fully 3D boundary element method

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