Deaf band-based prediction of Dirac cone in acoustic metamaterials

Mustahseen M. Indaleeb; Hossain Ahmed; Mohammadsadegh Saadatzi; Sourav Banerjee

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Deaf band-based prediction of Dirac cone in acoustic metamaterials

机译：基于聋人锥体的声学超材料中的龙眼预测

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摘要

Through an alternative paradigm, a predictive design of a Dirac-like point is introduced in a linear periodic metamaterial for the spatial guidance of acoustic waves. Dirac conelike dispersion at the Γ point (for k = 0) in a Brillouin zone is called a "Dirac-like cone," which seldom occurs due to accidental degeneracy. However, a deaf band-based predictive model shows incredible potential to achieve an engineered Dirac cone at a predictive pivoted frequency. A targeted Dirac cone at a higher frequency is carried out in this article validating the orthogonal energy transport in a spiral pattern. The dominance of asymmetric deaf band modes triggers total internal reflection and guiding of acoustic waves inside phononic crystals. To elucidate the versatility of this methodology, experimental validation of orthogonal wave transport is presented.

机译：通过替代范式，在用于声波的空间引导的线性周期性超材料中引入了狄拉氏点的预测设计。在布里渊区中的γ点（对于k = 0）的Dirac Conelikike分散被称为“狄拉氏锥”，这是由于意外的退化而发生的很少发生。然而，基于聋频带的预测模型显示了以预测枢转频率实现的令人难以置信的潜力。在本文中进行了较高频率的靶向狄拉科锥在验证螺旋模式中的正交能量传输中进行。不对称聋频带模式的主导地位触发了声波晶体内声波的总内部反射和引导。为了阐明这种方法的多功能性，提出了正交波传输的实验验证。

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来源
《Journal of Applied Physics》 |2020年第6期|064903.1-064903.9|共9页
作者
Mustahseen M. Indaleeb; Hossain Ahmed; Mohammadsadegh Saadatzi; Sourav Banerjee;
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作者单位

Integrated Material Assessment and Predictive Simulation Laboratory (iMAPS) Department of Mechanical Engineering University of South Carolina Columbia South Carolina 29201 USA;

Integrated Material Assessment and Predictive Simulation Laboratory (iMAPS) Department of Mechanical Engineering University of South Carolina Columbia South Carolina 29201 USA;

Integrated Material Assessment and Predictive Simulation Laboratory (iMAPS) Department of Mechanical Engineering University of South Carolina Columbia South Carolina 29201 USA;

Integrated Material Assessment and Predictive Simulation Laboratory (iMAPS) Department of Mechanical Engineering University of South Carolina Columbia South Carolina 29201 USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
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正文语种 eng
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专利

1. Deaf band based engineered Dirac cone in a periodic acoustic metamaterial: A numerical and experimental study [J] . Indaleeb Mustahseen M., Banerjee Sourav, Ahmed Hossain, Physical review. B, Condensed Matter And Materals Physics . 2019,第2期

机译：基于聋带的工程狄拉克锥在周期性声学超材料中的数值和实验研究
2. Deaf band based engineered Dirac cone in a periodic acoustic metamaterial: A numerical and experimental study [J] . Physical review, B . 2019,第2期

机译：基于聋频段的经验化的Dirac锥在周期性的声学超材料中：数值和实验研究
3. Underwater acoustic metamaterial based on double Dirac cone characteristics in rectangular phononic crystals [J] . Dong-Liang Pei, Tao Yang, Meng Chen, 中国物理：英文版 . 2019,第012期

机译：矩形声子晶体中基于双重狄拉克锥特性的水下声学超材料
4. TUNABLE DIRAC CONES IN TWO-DIMENSIONAL ACOUSTIC METAMATERIALS WITH MATRYOSHKA STRUCTURE [C] . Meng Chen, Heng Jiang, Yuren Wang International Congress on Sound and Vibration . 2019

机译：用Matryoshka结构的二维声学超材料中调谐狄拉科舞蹈
5. Dirac metamaterials: Electromagnetic epsilon-near-zero metamaterials that mimic relativistic quantum particles. [D] . Cook, Andrew K. 2012

机译：狄拉克超材料：模仿相对论量子粒子的电磁ε接近零的超材料。
6. Observation of acoustic Dirac-like cone and double zero refractive index [O] . Marc Dubois, Chengzhi Shi, Xuefeng Zhu, -1

机译：观察狄拉克声锥和双零折射率
7. Dirac cones at k → 0 in acoustic crystals and zero refractive index acoustic materials [O] . Liu, F., Huang, X., Chan, C.T. 2012

机译：声学晶体和零折射率声学材料中k→0的狄拉克锥

Deaf band-based prediction of Dirac cone in acoustic metamaterials

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