用模拟退火算法优化斐波那契数列中的多重qpm

2017 International Conference on Algorithms, Methodology, Models and Applications in Emerging Technologies (ICAMMAET) Pub Date : 2017-02-01 DOI:10.1109/ICAMMAET.2017.8186693

P. Shiva, C. Siva, Balaji Narayanan, Toijam Sunder Meetei, K. Pandiyan

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引用次数: 0

摘要

我们分析了基于斐波那契的光学超晶格的模拟退火算法，以在单通道准相位匹配(QPM)器件中获得多次二次谐波(SHG)。斐波那契数列本身有大量的互反向量来产生多重qpm。为了将多个峰按期望的顺序排列，我们在基于斐波那契的光学超晶格中引入了模拟退火算法。详细讨论了在多峰设计中起关键作用的参数如温度、扰动大小和畴的选择。

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Optimizing multiple-QPM in Fibonacci sequence using simulated annealing algorithm

We have analyzed the simulated annealing algorithm in a Fibonacci based optical superlattices to obtain multiple second harmonic generation (SHG) in a single channel Quasi-Phase matching (QPM) device. The Fibonacci sequence itself has plenty of reciprocal vectors to generate multiple-QPM. To arrange the multiple peaks in a desired order, we have introduced simulated annealing algorithm in the Fibonacci based optical superlattices. The parameters such as temperature, perturbation size and choice of domains which are playing key role in designing the multiple peaks are discussed in detail.

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2017 International Conference on Algorithms, Methodology, Models and Applications in Emerging Technologies (ICAMMAET)

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