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analogue electromagnetically induced transparency based on low-loss metamaterial and its application in nanosensor and slow-light device
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نویسنده
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wei zhongchao ,li xianping ,zhong nianfa ,tan xiaopei ,zhang xiaomeng ,liu hongzhan ,meng hongyun ,liang ruisheng
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منبع
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plasmonics - 2017 - دوره : 12 - شماره : 3 - صفحه:641 -647
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چکیده
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In this paper, we demonstrated a low-loss and high-transmission analogy of electromagnetically induced transparency based on all-dieletric metasurface. the metamaterial unit cell structure is composed of two mutually perpendicular silicon nanoscale bars. under the joint effects of the neighboring meta-atoms’ coherent interaction and significant low absorption loss, the transmission and the q-factor can reach up to 93 % and 139, respectively. moreover, we use the coupled harmonic oscillator model to analyze the near field interaction between the two elements in the electromagnetically induced transparency (eit) metamaterial unit cell qualitatively and the effects of parameters on eit. the figure-of-merit of 42 and the group delay of 0.65 ps are obtained. these characteristics make the metamaterial structure with potential to apply for ultrafast switches, sensor, and slow-light devices.
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کلیدواژه
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nano-plasmonic ,electromagnetically induced transparency ,metamaterials ,sensing applications
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آدرس
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south china normal university, school for information and optoelectronic science and engineering, guangdong provincial key laboratory of nanophotonic functional materials and devices, china, south china normal university, school for information and optoelectronic science and engineering, guangdong provincial key laboratory of nanophotonic functional materials and devices, china, south china normal university, school for information and optoelectronic science and engineering, guangdong provincial key laboratory of nanophotonic functional materials and devices, china, south china normal university, school for information and optoelectronic science and engineering, guangdong provincial key laboratory of nanophotonic functional materials and devices, china, south china normal university, school for information and optoelectronic science and engineering, guangdong provincial key laboratory of nanophotonic functional materials and devices, china, south china normal university, school for information and optoelectronic science and engineering, guangdong provincial key laboratory of nanophotonic functional materials and devices, china, south china normal university, school for information and optoelectronic science and engineering, guangdong provincial key laboratory of nanophotonic functional materials and devices, china, south china normal university, school for information and optoelectronic science and engineering, guangdong provincial key laboratory of nanophotonic functional materials and devices, china
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Authors
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