中国科学院机构知识库网格
Chinese Academy of Sciences Institutional Repositories Grid
Topology Optimization-Based Inverse Design of Plasmonic Nanodimer with Maximum Near-Field Enhancement

文献类型:期刊论文

作者Y. Q. Chen,Y. Q. Hu,J. Y. Zhao,Y. S. Deng,Z. L. Wang,X. Cheng,D. Y. Lei,Y. B. Deng and H. G. Duan
刊名Advanced Functional Materials
出版日期2020
卷号30期号:23页码:8
ISSN号1616-301X
DOI10.1002/adfm.202000642
英文摘要The near-field enhancement factor is one of the most significant parameters to evaluate the performance of plasmonic nanostructures. Numerous efforts have been made to maximize the enhancement factor through optimizing the size, shape, and spatial arrangement of metallic nanostructures with simple geometries, such as disk, triangle, and rod. This work implements topology optimization to inversely design a metallic nanoparticle dimer with the goal of optimizing the near-field enhancement factor in its sub-10 nm gap. By optimizing the material layout within a given design space, the topology optimization algorithm results in a plasmonic nanodimer of two heart-shaped particles having both convex and concave features. Full-wave electromagnetic analysis reveals that the largest near-field enhancement in the heart-shaped nanoparticle dimer is originated from the greatest concentration of surface charges at the nano-heart apex. Inversely designed heart-, bowtie-, and disk-shaped nanodimers are fabricated by using focused helium ion beam milling with a "sketch and peel" strategy, and their near-field enhancement performances are characterized with nonlinear optical spectroscopies at the single-particle level. Indeed, the heart-shaped nanodimer exhibits much stronger signal intensities than the other two structures. The present work corroborates the validity and effectiveness of topology optimization-based inverse design in achieving desired plasmonic functionalities.
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语种英语
源URL[http://ir.ciomp.ac.cn/handle/181722/64971]  
专题中国科学院长春光学精密机械与物理研究所
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Y. Q. Chen,Y. Q. Hu,J. Y. Zhao,Y. S. Deng,Z. L. Wang,X. Cheng,D. Y. Lei,Y. B. Deng and H. G. Duan. Topology Optimization-Based Inverse Design of Plasmonic Nanodimer with Maximum Near-Field Enhancement[J]. Advanced Functional Materials,2020,30(23):8.
APA Y. Q. Chen,Y. Q. Hu,J. Y. Zhao,Y. S. Deng,Z. L. Wang,X. Cheng,D. Y. Lei,Y. B. Deng and H. G. Duan.(2020).Topology Optimization-Based Inverse Design of Plasmonic Nanodimer with Maximum Near-Field Enhancement.Advanced Functional Materials,30(23),8.
MLA Y. Q. Chen,Y. Q. Hu,J. Y. Zhao,Y. S. Deng,Z. L. Wang,X. Cheng,D. Y. Lei,Y. B. Deng and H. G. Duan."Topology Optimization-Based Inverse Design of Plasmonic Nanodimer with Maximum Near-Field Enhancement".Advanced Functional Materials 30.23(2020):8.

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来源:长春光学精密机械与物理研究所

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