| 三维声子晶体带结构研究 |
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| 引用本文: | 颜琳,赵鹤平,王小云,黄国盛,彭秀艳.三维声子晶体带结构研究[J].化学物理学报(中文版),2006,19(2):155-158. |
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| 作者姓名: | 颜琳 赵鹤平 王小云 黄国盛 彭秀艳 |
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| 摘 要: |
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| 关 键 词: | 声子晶体 带隙 面心立方 平面波展开法 |
Band Structure of Three-dimensional Phononic Crystals |
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| Lin Yan,He-ping Zhao,Xiao-yun Wang,Guo-sheng Huang,Xiu-yan Peng.Band Structure of Three-dimensional Phononic Crystals[J].化学物理学报(中文版),2006,19(2):155-158. |
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| Authors: | Lin Yan He-ping Zhao Xiao-yun Wang Guo-sheng Huang Xiu-yan Peng |
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| Abstract: | By using the plane-wave-expansion method, the band structure of three-dimension phononic crystals was calculated, in which the cuboid scatterers were arranged in a host with a face-centered-cubic (FCC) structure.The influences of a few factors such as the component materials, the filling fraction of scatterers and the ratio (RHL) of the scatterer's height to its length on the band-gaps of phononic crystals were investigated.It is found that in the three-dimension solid phononic crystals with FCC structure, the optimum case to obtain band-gaps is to embed high-velocity and high-density scatterers in a low-velocity and low-density host. The maximum value of band-gap can be obtained when the filling fraction is in the middle value. It is also found that the symmetry of the scatterers strongly influences the band-gaps. For RHL>1, the width of the band-gap decreases as RHL increases. On the contrary, the width of the band-gap increases with the increase of RHL when RHL is smaller than 1. |
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| Keywords: | Phononic crystals Band-gap Face-centered-cubic (FCC) Plane wave expansion method |
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