Manipulation of surface phonon polaritons in Si C nanorods 被引量：5

碳化硅纳米棒的表面声子极化激元调控

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摘要 Surface phonon polaritons(SPh Ps) are potentially very attractive for subwavelength control and manipulation of light at the infrared to terahertz wavelengths. Probing their propagation behavior in nanostructures is crucial to guide rational device design. Here, aided by monochromatic scanning transmission electron microscopy-electron energy loss spectroscopy technique, we measure the dispersion relation of SPh Ps in individual Si C nanorods and reveal the effects of size and shape. We find that the SPh Ps can be modulated by the geometric shape and size of Si C nanorods. The energy of SPh Ps shows redshift with decreasing radius and the surface optical phonon is mainly concentrated on the surface with large radius. Therefore, the fields can be precisely confined in specific positions by varying the size of the nanorod, allowing effective tuning at nanometer scale. The findings of this work are in agreement with dielectric response theory and numerical simulation, and provide novel strategies for manipulating light in polar dielectrics through shape and size control, enabling the design of novel nanoscale phononphotonic devices. 表面声子极化激元的频率一般在红外和太赫兹波段,在亚波长控制和调控方面有非常大的应用潜力,因此研究它们在纳米结构中的行为对减小器件尺寸是非常必要的.本文利用最新的扫描透射电镜电子能量损失谱技术,研究了碳化硅纳米棒的尺寸和形状效应.研究发现不同截面的纳米棒,其表面声子极化激元的频率和空间分布有很大不同.随着纳米棒直径减小,表面声子极化激元频率出现明显的红移,且倏逝场的分布范围更广.对于截面形状变化的纳米棒,倏逝场倾向于分布在截面面积较小的区域,理论模拟和实验结果都证实了这一点.因此,我们可以通过改变纳米棒的截面形状和尺寸来调控表面声子极化激元的频率和空间分布,设计新型的纳米尺寸的光子学器件.

作者 Yuehui Li Ruishi Qi Ruochen Shi Ning Li Peng Gao 李跃辉;亓瑞时;时若晨;李宁;高鹏(International Center for Quantum Materials,Peking University,Beijing 100871,China;Electron Microscopy Laboratory,School of Physics,Peking University,Beijing 100871,China;Collaborative Innovation Center of Quantum Matter,Beijing 100871,China)

机构地区 International Center for Quantum Materials Electron Microscopy Laboratory Collaborative Innovation Center of Quantum Matter

出处《Science Bulletin》 SCIE EI CAS CSCD 2020年第10期820-826,M0004,共8页 科学通报（英文版）

基金 We gratefully acknowledge the support from the“2011 Program”Peking-Tsinghua-IOP,China Collaborative Innovation Center of Quantum Matter.The authors acknowledge Electron Microscopy Laboratory of Peking University,China for the use of Cs corrected electron microscope.This work was supported by the National Natural Science Foundation of China(11974023,51672007) the National Key R&D Program of China(2016YFA0300804) the National Equipment Program of China(ZDYZ2015-1) the Key-Area Research and Development Program of Guangdong Provience(2018B030327001,2018B010109009).

关键词 Surface phonon polariton NANOPHOTONICS NANOSTRUCTURE Geometry manipulation Phononic materials 电子能量损失谱扫描透射电镜形状效应表面声子纳米棒模拟和实验纳米结构碳化硅

分类号 TB383.1 [一般工业技术—材料科学与工程]

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