Gate-Tunable Plasmon-Induced Transparency Modulator Based on Stub-Resonator Waveguide with Epsilon-Near-Zero Materials

Long Tao; Aleksei Anopchenko; Sudip Gurung; Jinqiannan Zhang; Ho Wai Howard Lee

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Gate-Tunable Plasmon-Induced Transparency Modulator Based on Stub-Resonator Waveguide with Epsilon-Near-Zero Materials

机译：基于Epsilon-Near-Zero材料的短截线谐振器波导的可调谐门极等离子体激元感应调制器

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We demonstrate an electrically tunable ultracompact plasmonic modulator with large modulation strength (10?dB) and a small footprint (~1 μm in length) via plasmon-induced transparency (PIT) configuration. The modulator based on a metal-oxide-semiconductor (MOS) slot waveguide structure consists of two stubs embedded on the same side of a bus waveguide forming a coupled system. Heavily n-doped indium tin oxide (ITO) is used as the semiconductor in the MOS waveguide. A large modulation strength is realized due to the formation of the epsilon-near-zero (ENZ) layer at the ITO-oxide interface at the wavelength of the modulated signal. Numerical simulation results reveal that such a significant modulation can be achieved with a small applied voltage of ~3V. This result shows promise in developing nanoscale modulators for next generation compact photonic/plasmonic integrated circuits.

机译：我们通过等离激元诱导的透明性（PIT）配置展示了具有大调制强度（> 10？dB）和小占位面积（长度约1μm）的电可调超紧凑型等离激元调制器。基于金属氧化物半导体（MOS）缝隙波导结构的调制器由嵌入到总线波导同一侧的两个短截线组成，形成耦合系统。重掺杂的铟锡氧化物（ITO）用作MOS波导中的半导体。由于在调制信号的波长处的ITO-氧化物界面处形成了ε-接近零（ENZ）层，因此实现了较大的调制强度。数值模拟结果表明，仅需约3V的施加电压，即可实现如此显着的调制。该结果显示出在开发用于下一代紧凑型光子/等离子体集成电路的纳米级调制器方面的希望。

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《Scientific reports.》 |2019年第1期|共8页
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Long Tao; Aleksei Anopchenko; Sudip Gurung; Jinqiannan Zhang; Ho Wai Howard Lee;
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1. Dynamic plasmon-induced transparency modulator and excellent absorber-based terahertz planar graphene metamaterial [J] . Xu Hui, Xiong Cuixiu, Chen Zhiquan, Journal of the Optical Society of America, B. Optical Physics . 2018,第6期

机译：动态等离子诱导的透明度调制器和优异的基于吸收器的太赫兹平面石墨烯超材料
2. Dynamically Manipulating the Plasmon-Induced Transparency—Like in Asymmetric Graphene-Based Waveguide Structures [J] . Zhengren Zhang, Xiaofei Zang, Yang Long, Journal of Lightwave Technology . 2017,第23期

机译：动态操纵等离子诱导的透明度，就像在不对称石墨烯基波导结构中一样
3. Terahertz plasmon-induced transparency based on asymmetric dual-disk resonators coupled to a semiconductor InSb waveguide and its biosensor application [J] . Shahamat Yadollah, Vahedi Mohammad Saleh Optical engineering . 2017,第6期

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4. Terahertz metamaterial biosensor based on plasmon-induced transparency [C] . WENJIONG ZHANG, HITOSHI TABATA 応用物理学会春季学術講演会;応用物理学会 . -1

机译：基于等离子体诱导的透明度的太赫兹超材料生物传感器
5. Enhanced and Coherent Light-Matter Interactions Based on Epsilon-Near-Zero Plasmonic Waveguides [D] . ?Li, Ying 2020

机译：加强和相干光 - 物质相互作用基于对 ε- 近零等离子体波导
6. Gate-Tunable Plasmon-Induced Transparency Modulator Based on Stub-Resonator Waveguide with Epsilon-Near-Zero Materials [O] . Long Tao, Aleksei Anopchenko, Sudip Gurung, -1

机译：基于Epsilon-Near-Zero材料的短截线谐振波导的可调谐门极的等离激元感应调制器
7. Gate-Tunable Plasmon-Induced Transparency Modulator Based on Stub-Resonator Waveguide with Epsilon-Near-Zero Materials [O] . Long Tao, Aleksei Anopchenko, Sudip Gurung, 2019

机译：基于带ε-近零材料的短谐振器波导的栅极可调等离子体诱导的透明度调制器
8. Ultracompact Electro-Absorption Modulators Based on Novel Materials (I): Epsilon-Near-Zero Material and Electro-Absorption Modulation Based on Indium-Tin-Oxide. [R] . Lu, Z. 2013

机译：基于新材料的超紧凑电吸收调制器（I）：基于铟锡氧化物的ε-近零材料和电吸收调制。

Gate-Tunable Plasmon-Induced Transparency Modulator Based on Stub-Resonator Waveguide with Epsilon-Near-Zero Materials

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