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Article Dans Une Revue Journal of Applied Physics Année : 2009

A mixed finite element/boundary element approach to simulate complex guided elastic wave periodic transducers

Résumé

The development of new surface acoustic wave devices exhibiting complicated electrode patterns or layered excitation transducers has been favored by an intense innovative activity in this area. For instance, devices exhibiting interdigital transducers covered by piezoelectric or dielectric layers have been fabricated and tested, but the design of such structures requires simulation tools capable to accurately take into account the actual shape of the wave guide elements. A modeling approach able to address complicated surface acoustic wave periodic structures (defined in the saggital plane) exhibiting any geometry then has been developed and implemented. It is based on the combination of a finite element analysis and a boundary element method. A first validation of the computation is reported by comparison with standard surface wave devices. Surface transverse wave resonators covered by amorphous silica have been built and consequently used for theory/experiment assessment. Also the case of recessed electrodes has been considered. The proposed model offers large opportunities for modeling any two-dimensional periodic elastic wave guide.
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Dates et versions

hal-00429462 , version 1 (03-11-2009)

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Sylvain Ballandras, Raphael Lardat, Mikael Wilm, Thomas Pastureaud, Alexandre Reinhardt, et al.. A mixed finite element/boundary element approach to simulate complex guided elastic wave periodic transducers. Journal of Applied Physics, 2009, 105 (1), pp.014911. ⟨10.1063/1.3021307⟩. ⟨hal-00429462⟩
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