Application of LDOS and multipole expansion technique in optimization of photonic crystal designs

Azardokht Mazaheri; Hamid Reza Fallah; Javad Zarbakhsh

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Application of LDOS and multipole expansion technique in optimization of photonic crystal designs

机译：LDOS和多极扩展技术在光子晶体设计优化中的应用

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摘要

We introduced a procedure of using local density of states for increasing the quality factor and Purcell factor of photonic crystal cavities. We used multipole expansion method for accurate calculation of local density of photonic states, stationary field profile, Q-factor, mode volume and Purcell factor of photonic crystal cavities. We found out that the quality factor exponentially increases with the number of additional photonic crystal layers around the cavity while the mode frequencies stay unchanged. We also demonstrated the method in studying the defect mode's behavior in photonic crystal cavities and showed that high Q-factor, small mode volume and high Purcell factor could be obtained with optimization of geometrical parameters of first neighboring layer.

机译：我们介绍了使用状态局部密度增加光子晶体腔的品质因数和珀塞尔因数的过程。我们使用多极展开法来精确计算光子态的局部密度，平稳场分布，Q因子，模式体积和光子晶体腔的赛尔因子。我们发现，品质因数随腔周围附加光子晶体层的数量呈指数增加，而模频率保持不变。我们还证明了研究光子晶体腔中缺陷模式行为的方法，并表明通过优化第一相邻层的几何参数可以获得高Q因子，小模式体积和高赛尔因子。

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来源
《Optical and quantum electronics》 |2013年第1期|67-77|共11页
作者
Azardokht Mazaheri; Hamid Reza Fallah; Javad Zarbakhsh;
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作者单位

Department of Physics, University of Isfahan, Isfahan, Iran;

Department of Physics, University of Isfahan, Isfahan, Iran,Quantum optics research group, University of Isfahan, Isfahan, Iran;

Christian Doppler Labor, Institut fur Halbleiter und Festkorperphysik, Johannes Kepler Universitat Linz, Linz, Austria KAI-Kompetenzzentrum Automobil- und Industrieelektronik GmbH, Villach, Austria;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
photonic crystal cavities; optimization of geometrical parameters; local density of states; quality factor; purcell factor;

机译：光子晶体腔;优化几何参数;国家的局部密度;品质因数;赛塞尔因数;

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机译：有限差分时域和多极扩展技术优化光子晶体腔质量因子
2. Design and optimization of one-dimensional photonic crystals for thermophotovoltaic applications [J] . Ivan Celanovic, Francis OSullivan, Milos Ilak, Optics Letters . 2004,第8期

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3. Design optimization of a highly sensitive spiral photonic crystal fiber for liquid and chemical sensing applications [J] . Malavika R., Prabu K. Optical fiber technology . 2019,第SEPa期

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4. Quality Factor Optimization of Photonic Crystal Cavities through Multiple Multipole Expansion Technique and Power Loss Integral [C] . Reihaneh Jannesary, Saeid Zamiri, Azar D. Mazaheri, Photonic Crystal Materials and Devices VIII . 2008

机译：利用多重多极扩展技术和功率损耗积分优化光子晶体腔的品质因数
5. Design and manipulation of one-dimensional rugate photonic crystals of porous silicon for chemical sensing applications. [D] . King, Brian Henry. 2010

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6. Design and Fabrication of a Visible-Light-Compatible Polymer-Based Photonic Crystal Resonator and Waveguide for Sensing Applications [O] . Jiayi Sun, Kenichi Maeno, Shoma Aki, 2018

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Application of LDOS and multipole expansion technique in optimization of photonic crystal designs

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