Imaging Ultrafast Plasmon Dynamics within a Complex Dolmen Nanostructure Using Photoemission Electron Microscopy  

作　　者：秦将 郎鹏 季博宇 N.K.Alemayehu 陶海岩 高勋 郝作强 林景全 

机构地区：[1]School of Science,Changchun University of Science and Technology [2]International Research Center for Nano Handling and Manufacturing of China,Changchun University of Science and Technology

出　　处：《Chinese Physics Letters》2016年第11期82-86,共5页中国物理快报（英文版）

基　　金：Supported by the National Basic Research Program of China under Grant No 2013CB922404;the National Natural Science Foundation of China under Grant Nos 11474040,11474039,61605017 and 61575030;the Project of Changchun Science and Technology Bureau under Grant No 14KP007

摘　　要：We report direct nanoscale imaging of ultrafast plasmon in a gold dolmen nanostructure excited with the 7is laser pulses by combining the interferometric time-resolved technology with the three-photon photoemission electron microscopy （PEEM）. The interferometric time-resolved traces show that the plasmon mode beating pattern appears at the ends of the dimer slabs in the dolmen nanostructure as a result of coherent superposition of multiple localized surface plasmon modes induced by broad bandwidth of the ultrafast laser pulses. The PEEM measurement further discloses that in-phase of the oscillation field of two neighbor defects are surprisingly observed, which is attributed to the plasmon coupling between them. Furthermore, the control of the temporal delay between the pump and probe laser pluses could be utilized for manipulation of the near-field distribution. These findings deepen our understanding of ultrafast plasmon dynamics in a complex nanosystem.We report direct nanoscale imaging of ultrafast plasmon in a gold dolmen nanostructure excited with the 7is laser pulses by combining the interferometric time-resolved technology with the three-photon photoemission electron microscopy （PEEM）. The interferometric time-resolved traces show that the plasmon mode beating pattern appears at the ends of the dimer slabs in the dolmen nanostructure as a result of coherent superposition of multiple localized surface plasmon modes induced by broad bandwidth of the ultrafast laser pulses. The PEEM measurement further discloses that in-phase of the oscillation field of two neighbor defects are surprisingly observed, which is attributed to the plasmon coupling between them. Furthermore, the control of the temporal delay between the pump and probe laser pluses could be utilized for manipulation of the near-field distribution. These findings deepen our understanding of ultrafast plasmon dynamics in a complex nanosystem.

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分 类 号：TN16[电子电信—物理电子学] TB383.1[一般工业技术—材料科学与工程]