Band structure of acoustic waves in phononic lattices: Two-dimensional composites with large acoustic mismatch

Tanaka Y.; Tamura S.; Tomoyasu Y.

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Band structure of acoustic waves in phononic lattices: Two-dimensional composites with large acoustic mismatch

机译：声子晶格中声波的能带结构：具有较大声失配的二维复合材料

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The finite-difference time-domain method is applied to the calculation of dispersion relations of acoustic waves in two-dimensional (2D) phononic lattices, i.e., periodic solid-solid, solid-liquid, and solid-vacuum composites, for which the conventional plane-wave-expansion method fails or converges very slowly. Numerical examples are developed for 2D structures with polyethylene, mercury, and vacuum cylinders forming a square lattice in an aluminum matrix. The implication of the calculated dispersion relations for ultrasound transmission experiments is discussed. [References: 22]

机译：时域有限差分法用于计算声波在二维（2D）声子晶格中的色散关系，即周期性的固-固，固-液和固-真空复合材料。平面波扩展方法失败或收敛非常缓慢。针对带有聚乙烯，汞和真空圆柱体的2D结构开发了数值示例，这些圆柱体在铝基体中形成了正方形晶格。讨论了所计算的色散关系对超声传输实验的意义。 [参考：22]

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《Physical Review, B. Condensed Matter》 |2000年第11期|共6页
作者
Tanaka Y.; Tamura S.; Tomoyasu Y.;
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Periodic elastic composites; Gaps; Surface; Transmittance; Attenuation; Systems; Media;

机译：周期弹性复合材料;间隙;表面;透射率;衰减;系统;介质;

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1. Band structure of acoustic waves in phononic lattices: Two-dimensional composites with large acoustic mismatch [J] . Tanaka Y., Tamura S., Tomoyasu Y. Physical Review, B. Condensed Matter . 2000,第11期

机译：声子晶格中声波的能带结构：具有较大声失配的二维复合材料
2. Surface acoustic waves in pillars-based two-dimensional phononic structures with different lattice symmetries [J] . Abdelkrim Khelif, Younes Achaoui, Boujemaa Aoubiza Journal of Applied Physics . 2012,第3期

机译：具有不同晶格对称性的基于柱的二维声子结构中的表面声波
3. Acoustic stop bands of surface and bulk modes in two-dimensional phononic lattices consisting of aluminum and a polymer [J] . Tanaka Y., Tamura S. Physical Review, B. Condensed Matter . 1999,第19期

机译：由铝和聚合物组成的二维声子晶格中的表面和体模的声阻带
4. TUNABLE BAND GAPS OF ACOUSTIC WAVES IN TWO-DIMENSIONAL PHONONIC CRYSTALS WITH RETICULAR BAND STRUCTURES [C] . Zi-Gui Huang, Yunn-Lin Hwang, Pei-Yu Wang, IMECE2009;ASME international mechanical engineering congress and exposition . 2010

机译：二维带网状结构声子晶体中声波的可调谐带隙
5. Brillouin studies of surface acoustic waves in nanostructured phononic crystals [D] . Chenguang, Hou. 2015

机译：纳米结构声子晶体中表面声波的布里渊研究
6. Optimization of AIN Composite Structure Based Surface Acoustic Wave Device for Potential Sensing at Extremely High Temperature [O] . Shuyao Fan, Wen Wang, Xueling Li, 2020

机译：基于AIN复合结构的表面声波装置的优化用于极高温度的电位感应
7. Band structure of acoustic waves in phononic lattices: Two-dimensional composites with large acoustic mismatch [O] . Tanaka, Yukihiro, Tomoyasu, Yoshinobu, Tamura, Shin-ichiro 2000

机译：声子晶格中声波的能带结构：具有较大声失配的二维复合材料

Band structure of acoustic waves in phononic lattices: Two-dimensional composites with large acoustic mismatch

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