| 银纳米粒子阵列中衍射诱导高品质因子的四偶极晶格等离子体模式 |
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| 引用本文: | 熊磊,丁洪伟,李光元.银纳米粒子阵列中衍射诱导高品质因子的四偶极晶格等离子体模式[J].物理学报,2022(4):243-249. |
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| 作者姓名: | 熊磊 丁洪伟 李光元 |
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| 作者单位: | 云南大学信息学院;中国科学院深圳先进技术研究院 |
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| 基金项目: | 国家自然科学基金地区科学基金(批准号:61461053);云南大学研究生创新项目(批准号:2020295)资助的课题。 |
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| 摘 要: | 金属纳米颗粒阵列中形成的四偶极晶格共振模式具有低辐射损耗、高品质因子的特性,因此广泛应用于纳米激光、传感、固态照明等领域.基于时域有限差分法在均匀环境下研究了银纳米圆柱阵列的光谱与近场特性.研究结果表明,在x偏振光直入射下,通过调节阵列x方向的周期,共振强度先增加后降低,当两个方向上的周期相等时,提出的阵列结构能够产生一个线宽约0.4 nm、品质因子高达1815的四偶极晶格共振模式,这种共振模式呈现出Fano线型的透射谷;调控y方向的周期能够实现从Fano线型的透射峰到透射谷的转变.本文说明了粒子大小、晶格周期对四偶极晶格共振模式的重要性,同时为银纳米颗粒在可见光波段设计高品质因子共振提供了优化策略.
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| 关 键 词: | 时域有限差分法 四偶极晶格共振 品质因子 纳米颗粒 |
Quadrupolar lattice plasmon modes induced by diffraction of high-quality factors in silver nanoparticle arrays |
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| Xiong Lei,Ding Hong-Wei,Li Guang-Yuan.Quadrupolar lattice plasmon modes induced by diffraction of high-quality factors in silver nanoparticle arrays[J].Acta Physica Sinica,2022(4):243-249. |
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| Authors: | Xiong Lei Ding Hong-Wei Li Guang-Yuan |
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| Affiliation: | (School of Information Science and Engineering,Yunnan University,Kunming 650500,China;Shenzhen Institutes of Advanced Technology,Chinese Academy of Sciences,Shenzhen 518055,China) |
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| Abstract: | Periodic nanoparticle arrays with lower loss or high-quality(Q)factor resonances have made great advances in numerous applications.Such arrays can support narrow resonance modes by the hybridization of plasmonic-photonic modes,known as lattice plasmon modes(LPMs).The LPMs arise from the diffraction-induced coupling between localized surface plasmon resonances(LSPRs)of nanoparticles in symmetric or quasi-symmetric refractive index environment.To date,the great majority of researches have focused on the coupling of dipolar modes to in-plane orthogonal diffraction waves in nanoparticle arrays,resulting in dipolar lattice plasmon modes(DLPMs).However,there are few studies about quadrupolar lattice plasmon modes(QLPMs)for parallel coupling in symmetric environment,especially for high Q-factor QLPMs.In this work,we explore the sharp QLPMs of the silver nanodisk arrays by x-polarized light at normal incidence.In the first place,the scattering cross-section and near-field electric field distribution of single silver nanodisk indicate the existence of dipolar and quadrupolar LSPRs,thus,the optical responses of silver nanodisk arrays exhibit the peak-and-dip profiles of DLPMs and QLPMs at different wavelengths.Also,the electromagnetic field distributions confirm that the parallel propagating electric field introduces QLPM and results in electric field delocalization,while DLPM is existent in another way in periodic silver nanodisk arrays.Moreover,the position,linewidth and lineshape of the QLPM strongly depend on the role of lattice period.We enable these resonance modes to be selectively accessed and individually optimized by tuning lattice periods in the x-or y-direction.By changing the lattice period in the x-direction from 300 to 550 nm in steps of 50 nm,the dip of transmission intensity increases gradually,and when periods in the two directions are equal,the transmission dip exhibits a narrow-band QLPM resonance with a linewidth of 0.4 nm,corresponding quality factor is as high as Q=1815 under the x-polarized light.In particular,by varying periods in the y-direction,the QLPM can also be manipulated in a range from an asymmetric Fano-like lineshape peak to a dip.The acquisition of these results may provide a design strategy for high-Q factor resonance in nanolaser,sensing,and nonlinear optics. |
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| Keywords: | finite difference time domain method quadrupolar lattice plasmon modes quality factors nanoparticles |
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