Band gaps calculation of scalar waves in two-dimensional phononic crystals with Generalized Multipole Technique (GMT)

机译：用广义多极技术（GMT）计算二维声子晶体中标量波的带隙

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A numerical method based on the Generalized Multipole Technique (GMT) is proposed to calculate the band gaps of scalar waves in two-dimensional phononic crystal, which is composed of arbitrary shape cylinders embedded in a host medium in square lattice. In order to find the eigenvalues of the problem, besides the sources used to expand the wave field, an extra monopole source is introduced which acts as the external excitation. By varying the frequency of the excitation, the eigenvalue can be localized as the extreme points of an appropriately chosen function. By sweeping the frequency range of interest and sweeping the boundary of the irreducible first Brillouin zone (FBZ), the band structure will be obtained. Some numerical examples are illustrated to validate the present method.

机译：提出了一种基于广义多极技术（GMT）的数值方法，计算二维声子晶体中的标量波的带隙，该声子晶体由嵌入方体中任意形状的圆柱体组成。为了找到问题的特征值，除了用于扩展波场的源之外，还引入了一个额外的单极源，作为外部激励。通过改变激励频率，可以将特征值定位为适当选择函数的极值。通过扫描感兴趣的频率范围并扫描不可还原的第一布里渊区（FBZ）的边界，将获得能带结构。说明了一些数值示例以验证本方法。

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来源
《Proceedings of the 2012 Symposium on Piezoelectricity, Acoustic Waves and Device Applications.》|2012年|p.183-186|共4页
会议地点 Shanghai(CN);Shanghai(CN)
作者
Shi Zhi-jie; Wang Yue-sheng; Zhang Chuan-zeng;
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作者单位

Institute of Engineering Mechanics, Beijing Jiaotong University, 100044, China;

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会议组织
原文格式 PDF
正文语种 eng
中图分类强性介质和压电介质;强性介质和压电介质;
关键词
Band gaps; Eigenvalue problems; Generalized multipole technique (GMT); Phononic crystals;

机译：带隙;特征值问题;广义多极技术（GMT）;声子晶体;;

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专利

1. Band structure calculation of scalar waves in two-dimensional phononic crystals based on generalized multipole technique [J] . Zhi-jie SHI, Yue-sheng WANG, Chuan-zeng ZHANG 应用数学和力学（英文版） . 2013,第009期

机译：基于广义多极技术的二维声子晶体中标量波的能带结构计算
2. Band structure calculations of in-plane waves in two-dimensional phononic crystals based on generalized multipole technique [J] . Zhijie SHI, Yuesheng WANG, Chuanzeng ZHANG 应用数学和力学（英文版） . 2015,第005期

机译：基于广义多极技术的二维声子晶体平面波的能带结构计算
3. Application of dirichlet-to-neumann map to calculation of band gaps for scalar waves in two-dimensional phononic crystals [J] . Li F.-L., Wang Y.-S. Acta acustica united with acustica . 2011,第2期

机译：Dirichlet-to-neumann映射在二维声子晶体中标量波带隙计算中的应用
4. BAND GAPS CALCULATION OF SCALAR WAVES IN TWO-DIMENSIONAL PHONONIC CRYSTALS WITH GENERALIZED MULTIPOLE TECHNIQUE (GMT) [C] . Zhi-jie SHI, Yue-sheng WANG, Chuan-zeng ZHANG Proceedings of the 2012 Symposium on Piezoelectricity, Acoustic Waves and Device Applications. . 2012

机译：广义多极技术（GMT）在二维光子晶体中标量波的带隙计算
5. The study of band gap engineering for phononic crystals and gap structures in phononic quasicrystals. [D] . Lai, Yun. 2005

机译：声子晶体的带隙工程和声子准晶体的能隙结构研究。
6. Band Gaps and Transmission Characteristics Analysis on a Two-Dimensional Multiple-Scatter Phononic Crystal Structure [O] . Hang Xiang, Xingfu Ma, Jiawei Xiang 2020

机译：二维多散射声子晶体结构的带隙和传输特性分析
7. Wave propagation and acoustic band gaps of two-dimensional liquid crystal/solid phononic crystals [O] . Oral Oltulu, Amirullah M. Mamedov, Ekmel Ozbay 2016

机译：二维液晶/固体声子晶体的波传播和声带间隙

Band gaps calculation of scalar waves in two-dimensional phononic crystals with Generalized Multipole Technique (GMT)

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