Large Nonlinear Efficiency Enhancement in the Visible and UV Range from Plasmonic Gold Nanogratings

2023 23rd International Conference on Transparent Optical Networks (ICTON) Pub Date : 2023-07-02 DOI:10.1109/ICTON59386.2023.10207474

C. Cojocaru, S. Mukhopadhyay, L. Rodríguez-Suñé, M. Vincenti, R. Vilaseca, M. Scalora, J. Trull

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Abstract

We report a combined experimental/theoretical investigation on second and third harmonic generation from a plasmonic gold nanograting, that exhibits a plasmonic resonance in the near IR. The intense field localization leads to significant enhancement in the efficiency of nonlinear optical processes from the UV to the near IR range: second harmonic generation (SHG) conversion efficiencies increase three orders of magnitude compared to a flat gold mirror, while third harmonic generation (THG) conversion efficiency increases by nearly four orders of magnitude. The spectral and angular dependence (qualitative and quantitative) of the harmonics were experimentally recorded and validated within the framework of our own theoretical model, that we employ to simulate SHG and THG efficiencies. Our approach consists of an expanded microscopic hydrodynamic model that captures the dynamics of both free and bound electrons, and faithfully describes the basic electrodynamic behaviour of linear and nonlinear optics of metals at the nanoscale.

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等离子体金纳米光栅在可见光和紫外波段的非线性效率提高

本文报道了一种等离子体金纳米光栅的二次谐波和三次谐波产生的实验/理论结合研究，该光栅在近红外波段表现出等离子体共振。强场局域化导致从紫外到近红外非线性光学过程的效率显著提高:与平面金反射镜相比，二次谐波(SHG)转换效率提高了3个数量级，而三次谐波(THG)转换效率提高了近4个数量级。谐波的光谱和角度依赖性(定性和定量)在我们自己的理论模型框架内进行了实验记录和验证，我们使用该模型来模拟SHG和THG效率。我们的方法包括一个扩展的微观流体动力学模型，该模型捕获了自由电子和束缚电子的动力学，并忠实地描述了纳米尺度下金属线性和非线性光学的基本电动力学行为。

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来源期刊

2023 23rd International Conference on Transparent Optical Networks (ICTON)

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