A Hybrid Plasmonic Waveguide for the Propagation of Surface Plasmon Polariton at 1.55 μm on SOI Substrate

Amirhosseini A.; Safian R.

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A Hybrid Plasmonic Waveguide for the Propagation of Surface Plasmon Polariton at 1.55 μm on SOI Substrate

机译：用于在SOI衬底上传播1.55μm表面等离子极化的混合等离子波导

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摘要

A hybrid plasmonic waveguide (HPW) has been numerically investigated, based on silicon-on-insulator (SOI) structure near the telecom wavelength λ = 1550 nm using the finite-element method. The HPW consists of metal cap placed on SOI rib, which has a trench with a semicircle interface at the bottom of the trench. With the proper choice of waveguide sizes, our proposed HPW can support hybrid long-range surface plasmon which have strong mode confinement $A_{rm eff}$/ $A_{0}$ ≅ 0.0035–0.035 and long propagation length $(L_{rm eff}$ > 525 μm) simultaneously. In addition, for the proposed HPW, the calculated coupling length for two parallel identical waveguides which is separated by distance $d$ = 250 nm is approximately 1.3 μm, which is very helpful in realizing photonic integration circuits with ultrahigh integration density.

机译：基于有限元方法，在接近电信波长λ= 1550 nm的绝缘体上硅（SOI）结构的基础上，对混合等离子体激元波导（HPW）进行了数值研究。 HPW由放置在SOI肋上的金属帽组成，该帽上有一个在沟槽底部带有半圆界面的沟槽。通过适当选择波导尺寸，我们提出的HPW可以支持具有强模式限制$ A_ {rm eff} $ / $ A_ {0} $≅0.0035–0.035和长传播长度$（L_ { rm eff} $> 525μm）。另外，对于所提出的HPW，两个平行的相同波导的计算的耦合长度被距离$ d $ = 250 nm分隔为大约1.3μm，这对于实现具有超高集成密度的光子集成电路非常有帮助。

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《IEEE transactions on nanotechnology》 |2013年第6期|1031-1036|共6页
作者
Amirhosseini A.; Safian R.;
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Department of Electrical and Computer Engineering, Isfahan University of Technology, Isfahan, Iran|c|;

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Coupling length; figure of merit (FOM); silicon-on-insulator (SOI) substrate; surface plasmon polariton (SPP);

机译：耦合长度;品质因数（FOM）;绝缘体上硅（SOI）衬底;表面等离振子极化（SPP）;

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2. Metal–Dielectric Slot-Waveguide Structures for the Propagation of Surface Plasmon Polaritons at 1.55 $mu{hbox {m}}$ [J] . Ning-Ning Feng, Brongersma M.L., Negro L.D. IEEE Journal of Quantum Electronics . 2007,第6期

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3. Mode Composite Waveguide Based on Hybrid Substrate Integrated Waveguide and Spoof Surface Plasmon Polariton Structure [J] . Yang Zhang-Biao, Guan Dongfang, Zhang Qingfeng, Circuits and Systems I: Regular Papers, IEEE Transactions on . 2021,第4期

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A Hybrid Plasmonic Waveguide for the Propagation of Surface Plasmon Polariton at 1.55 μm on SOI Substrate

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