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Simulation of finite acoustic resonators from Finite Element Analysis based on mixed Boundary Element Method/Perfectly Matched Layer.

机译：基于混合边界元法/完全匹配层的有限元分析的有限元谐振器的仿真。

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The simulation of finite length Surface Acoustic Wave (SAW) resonators is addressed here. Both the electromechanical coupling and the acoustic wave propagation in inhomogeneous space are considered through a Finite Element Analysis (FEA). The homogeneous parts of the space are treated using a Boundary Element Method (BEM) whereas the side edges of the transducer are completed by Perfectly Matched Layer (PML) method. By combining these two boundary methods BEM and PML, we are able to decrease the contributions of the losses due to the diffraction of SAW into Bulk Acoustic Waves (BAW). Thus, we can simulate the effects of real boundary filters (dual mode) on SAW resonators behavior as well as infinite passivation layer laid aver acoustic resonators.

机译：这里解决了有限长度表面声波（SAW）谐振器的仿真。通过有限元分析（FEA）考虑机电耦合和非均匀空间中的声波传播。使用边界元法（BEM）处理空间的均匀部分，而换能器的侧边缘通过完全匹配的层（PML）方法完成。通过组合这两个边界方法BEM和PML，我们能够降低由于锯的衍射引起的损耗的贡献，而锯入散装声波（BAW）。因此，我们可以模拟实际边界滤波器（双模式）对SAW谐振器行为的影响以及无限钝化层奠定了静脉谐振器。

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《European Frequency and Time Forum》|2012年||共6页
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T. Laroche; S. Ballandras; W. Daniau; J. Garcia; K. Dbich; M. Mayer; X. Perois; K. Wagner;
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Simulation of finite acoustic resonators from Finite Element Analysis based on mixed Boundary Element Method/Perfectly Matched Layer.

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