Application of the Discontinuous Galerkin Time Domain Method in Nonlinear Nanoplasmonics

Y. Grynko, J. Förstner
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Abstract

We describe an implementation of the Discontinuous Galerkin Time Domain (DGTD) method for massively parallel numerical simulations of the nonlinear optical response from metallic nanostructures. A Maxwell- Vlasov hydrodynamic model is used to account for the nonlinear effects in the motion of the free electrons in a metal. The model is applied to simulate the second-harmonic generation (SHG) from the golden gap nanoantennas with random surface rougness. The results show that surface defects break the symmetry of the structure and produce bright SHG hot spots on the surface of nanoantennas. This increases the far-field SHG intensity by orders of magnitude.
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不连续伽辽金时域方法在非线性纳米等离子体中的应用
本文描述了一种用于金属纳米结构非线性光学响应大规模并行数值模拟的不连续伽辽金时域(DGTD)方法的实现。用麦克斯韦-弗拉索夫流体力学模型来解释金属中自由电子运动中的非线性效应。应用该模型模拟了具有随机表面粗糙度的金隙纳米天线的二次谐波产生。结果表明,表面缺陷破坏了结构的对称性,在纳米天线表面产生了明亮的SHG热点。这增加了远场SHG强度的数量级。
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