A novel sierpinski carpet fractal based photonic band gap structure for THz and optical communication applications

机译：基于太赫兹和光通信应用的新型基于sierpinski地毯分形的光子带隙结构

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In this paper, a novel sierpinski carpet fractal based Photonic Band Gap (PBG) structure has been proposed. Whereas the square lattice shaped PBG consisting of drilled holes of radius r=0.8 cm placed at a periodicity of p=3 cm, offers a band gap from 1.6 GHz to 1.95 GHz for a dielectric material of ε=9.8, the addition of secondary holes of radius r=0.15 cm placed at a distance of δ=1 cm, from the central hole offers a wider band gap from 1.64 GHz to 2.04 GHz. This same structure is then investigated at THz frequency range by keeping the ratio of periodicity of holes to the operating wavelength, constant. Thus, the band gap now shifts to 16.4 THz to 20.4 THz. The proposed PBG can offer effective solutions to PBG based optical fibers and nano antennas for THz and optical communication applications.

机译：本文提出了一种基于sierpinski地毯分形的新型光子带隙（PBG）结构。正方形的PBG由半径为r = 0.8 cm的钻孔组成，周期为p = 3 cm，而对于ε= 9.8的介电材料则提供了1.6 GHz至1.95 GHz的带隙，增加了第二个孔距中心孔δ= 1 cm处的半径r = 0.15 cm的半径提供了从1.64 GHz到2.04 GHz的更宽的带隙。然后，通过保持空穴的周期性与工作波长之比恒定，在THz频率范围研究相同的结构。因此，带隙现在从16.4 THz变为20.4 THz。提出的PBG可以为基于太赫兹和光通信应用的基于PBG的光纤和纳米天线提供有效的解决方案。

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《International Conference on Signal Processing and Integrated Networks》|2015年|228-231|共4页
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Mukherjee Biswajeet;
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Dielectric; Frequency; Modes; Photonic Band Gap (PBG); Resonance; TeraHertz (THz);

机译：介电;频率;模式;光子带隙（PBG）;共振;太赫兹（THz）;

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专利

1. Analyzing the photonic band gaps in two-dimensional plasma photonic crystals with fractal Sierpinski gasket structure based on the Monte Carlo method [J] . Hai-Feng Zhang, Shao-Bin Liu AIP Advances . 2016,第8期

机译：基于蒙特卡洛方法的分形Sierpinski垫圈结构分析二维等离子体光子晶体中的光子带隙
2. Optical switching applications of ZnSe/MgF_2 photonic band gap structures based on thermal nonlinearities [J] . M.C.LARCIPRETE, N. SAVALLI, T. TENEV, Applied physics. B, Lasers and optics . 2005,第2a3期

机译：基于热非线性的ZnSe / MgF_2光子带隙结构的光开关应用
3. A NOVEL FRACTAL ANTENNA BASED ON THE SIERPINSKI STRUCTURE FOR SUPER WIDE-BAND APPLICATIONS [J] . Angel Figueroa-Torres Cruz, Luis Medina-Monroy Jose, Lobato-Morales Humberto, Microwave and optical technology letters . 2017,第5期

机译：基于Sierpinski结构的超级宽带应用的新型分形天线
4. A novel sierpinski carpet fractal based photonic band gap structure for THz and optical communication applications [C] . Mukherjee Biswajeet International Conference on Signal Processing and Integrated Networks . 2015

机译：基于Sierpinski地毯的小型光子带隙结构，用于THz和光通信应用
5. Analysis of one-dimensional and two-dimensional photonic band gap structures designed with PMNT a low index dielectric material and applications to optical communication. [D] . Khandwal, Ratnanjali. 2008

机译：用PMNT设计的一维和二维光子带隙结构的分析，一种低折射率介电材料及其在光通信中的应用。
6. Titania Photonic Crystals with Precise Photonic Band Gap Position via Anodizing with Voltage versus Optical Path Length Modulation [O] . Georgy A. Ermolaev, Sergey E. Kushnir, Nina A. Sapoletova, 2019

机译：通过电压阳极氧化与光程长度调制具有精确光子带隙位置的二氧化钛光子晶体
7. Analyzing the photonic band gaps in two-dimensional plasma photonic crystals with fractal Sierpinski gasket structure based on the Monte Carlo method [O] . Hai-Feng Zhang, Shao-Bin Liu 2016

机译：基于monte Carlo方法的分形sierpinski垫片结构二维等离子体光子晶体的光子带隙分析

A novel sierpinski carpet fractal based photonic band gap structure for THz and optical communication applications

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