具有外方环的电控不对称分环太赫兹谐振器

IF 0.1 Q4 OPTICS Korean Journal of Optics and Photonics Pub Date : 2017-04-25 DOI:10.3807/KJOP.2017.28.2.059

D. Park, H. Ryu

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摘要

本文提出了一种具有外方环的非对称分环谐振器（ASLR-OSL），它可以在保持非对称分环路谐振器（ASLR）的高Q因子的同时主动控制太赫兹波的传输特性。设计了一个额外的方形外环，以同时扮演超材料和微加热器的角色，微加热器可以通过直接施加的偏置电压来控制温度。二氧化钒（VO2）薄膜用于控制传输性能，该薄膜随温度变化表现出绝缘体-金属相变。所提出的ASLR-OSL显示出与ASLR类似的传输特性，并且可以通过直接向外部方环施加偏置电压来成功地控制它们。基于这些结果，一种可电控太赫兹高Q超材料可以简单地通过在一种众所周知的高Q超物质的外部添加一个方环来实现。

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Electrically Controllable Asymmetric Split-Loop Terahertz Resonator with Outer Square Loop

This paper proposes an asymmetric split-loop resonator with an outer square loop (ASLR-OSL), which can actively control terahertz wave transmission properties while maintaining a high- Q -factor of the asymmetric split-loop resonator (ASLR). An added outer square loop is designed to play the roles of both a metamaterial and a micro-heater, which can control the temperature through a directly applied bias voltage. A vanadium dioxide (VO 2 ) thin film, which exhibits an insulator-metal phase transition with temperature change, is used to control the transmission properties. The proposed ASLR-OSL shows transmission properties similar to those of the ASLR, and they can be successfully controlled by directly applying bias voltage to the outer square loop. Based on these results, an electrically controllable terahertz high- Q metamaterial could be achieved simply by adding a square loop to the outside of a well-known high- Q metamaterial.

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Korean Journal of Optics and Photonics OPTICS-

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