聚偏氟乙烯基声学超材料的声子带隙和波传播

O. Oltulu, Sevket Simsek, A. Mamedov, E. Ozbay
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引用次数: 1

摘要

摘要采用平面波展开(PWE)方法研究了含有机铁电(pvdf -聚偏氟乙烯)和拓扑绝缘体(SnTe)的二维声子晶体(PC)的能带结构。研究了由嵌入PVDF矩阵的SnTe圆柱棒组成的方形晶格二维PC,以寻找一定能量的波的允许带和停止带。二维PC的声子带图ω = ω(k),其中绘制了无量纲频率ωa/2πc (c-波速),沿正方形布里渊区Г-X-M -Г路径的波向量k在10 ~ 110 kHz的频率范围内显示出5个停止带。PVDF的铁电性质和SnTe作为拓扑材料的特殊性质使我们能够在103-106 Hz的宽频率范围内控制波通过PC的传播。SnTe是一种分立元件,允许在其表面导电,但通过其体积显示出绝缘体特性。作为拓扑绝缘体在“拓扑声学”领域的延伸,碲化锡被认为是一种声学拓扑绝缘体。
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Phononic band gap and wave propagation on polyvinylidene fluoride-based acoustic metamaterials
Abstract In the present work, the acoustic band structure of a two-dimensional phononic crystal (PC) containing an organic ferroelectric (PVDF-polyvinylidene fluoride) and topological insulator (SnTe) was investigated by the plane-wave-expansion (PWE) method. Two-dimensional PC with square lattices composed of SnTe cylindrical rods embedded in the PVDF matrix is studied to find the allowed and stop bands for the waves of certain energy. Phononic band diagram ω = ω(k) for a 2D PC, in which non-dimensional frequencies ωa/2πc (c-velocity of wave) were plotted vs. the wavevector k along the Г–X–M–Г path in the square Brillouin zone shows five stop bands in the frequency range between 10 and 110 kHz. The ferroelectric properties of PVDF and the unusual properties of SnTe as a topological material give us the ability to control the wave propagation through the PC over a wide frequency range of 103–106 Hz. SnTe is a discrete component that allows conducting electricity on its surface but shows insulator properties through its bulk volume. Tin telluride is considered as an acoustic topological insulator as the extension of topological insulators into the field of “topological phononics”.
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Cogent Physics
Cogent Physics PHYSICS, MULTIDISCIPLINARY-
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