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Plasmonic lattice resonance-enhanced light emission from plastic scintillators by periodical Ag nanoparticle arrays

机译:周期性银纳米粒子阵列增强塑料闪烁体的等离子晶格共振发光

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摘要

We have demonstrated that periodical arrays of silver nanoparticles can enhance the light emission from a plastic scintillator layer on the surface of a silicon substrate. The enhancement is attributed to surface lattice resonances with a photonic-plasmonic nature. Although the enhancement exhibits directional characteristics for individual wavelengths, the wavelength-integrated enhancement shows a monotonous increase with increasing emission angle. As a result, an overall 1.81-fold wavelength- and angle-integrated enhancement has been obtained. This observation is promising for fundamental and applied research into enhanced luminescent material layers on opaque substrates.
机译:我们已经证明,银纳米颗粒的周期性阵列可以增强来自硅衬底表面上的塑料闪烁体层的光发射。增强归因于具有光子-等离子体性质的表面晶格共振。尽管增强显示出各个波长的方向特性,但波长积分增强显示出随着发射角的增加而单调增加。结果,获得了整体1.81倍的波长和角度积分增强。该观察结果对于不透明基板上增强的发光材料层的基础和应用研究很有希望。

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  • 来源
    《Applied Physics Letters》 |2017年第18期|181905.1-181905.5|共5页
  • 作者

    Bo Liu; Zhichao Zhu; Qiang Wu; Chuanwei Cheng; Mu Gu; Jun Xu; Hong Chen; Jiniiang Liu; Liang Chen; Xiaoping Ouyang;

  • 作者单位

    Shanghai Key Laboratory of Special Artificial Microstructure Materials and Technology, School of Physics Science and Engineering, Tongji University, Shanghai 200092, People s Republic of China;

    Shanghai Key Laboratory of Special Artificial Microstructure Materials and Technology, School of Physics Science and Engineering, Tongji University, Shanghai 200092, People s Republic of China;

    Shanghai Key Laboratory of Special Artificial Microstructure Materials and Technology, School of Physics Science and Engineering, Tongji University, Shanghai 200092, People s Republic of China;

    Shanghai Key Laboratory of Special Artificial Microstructure Materials and Technology, School of Physics Science and Engineering, Tongji University, Shanghai 200092, People s Republic of China;

    Shanghai Key Laboratory of Special Artificial Microstructure Materials and Technology, School of Physics Science and Engineering, Tongji University, Shanghai 200092, People s Republic of China;

    Shanghai Key Laboratory of Special Artificial Microstructure Materials and Technology, School of Physics Science and Engineering, Tongji University, Shanghai 200092, People s Republic of China;

    Shanghai Key Laboratory of Special Artificial Microstructure Materials and Technology, School of Physics Science and Engineering, Tongji University, Shanghai 200092, People s Republic of China;

    State Key Laboratory of Intense Pulsed Radiation Simulation and Effect, and Radiation Detection Research Center, Northwest Institute of Nuclear Technology, Xi'an 710024, People's Republic of China;

    State Key Laboratory of Intense Pulsed Radiation Simulation and Effect, and Radiation Detection Research Center, Northwest Institute of Nuclear Technology, Xi'an 710024, People's Republic of China;

    State Key Laboratory of Intense Pulsed Radiation Simulation and Effect, and Radiation Detection Research Center, Northwest Institute of Nuclear Technology, Xi'an 710024, People's Republic of China;

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