Numerical emulation of Thru-Reflection-Line calibration for the de-embedding of Surface Acoustic Wave devices

In this contribution, a rigorous numerical calibration is proposed to characterize the excitation of propagating mechanical waves by interdigitated transducers (IDTs). The transition from IDT terminals to phonon waveguides is modeled by means of a general circuit representation that makes use of Sca...

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Veröffentlicht in:Scientific reports 2018-06, Vol.8 (1), p.9256-10, Article 9256
Hauptverfasser: Mencarelli, D., Djafari-Rouhani, B., Pennec, Y., Pitanti, A., Zanotto, S., Stocchi, M., Pierantoni, L.
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Sprache:eng
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Zusammenfassung:In this contribution, a rigorous numerical calibration is proposed to characterize the excitation of propagating mechanical waves by interdigitated transducers (IDTs). The transition from IDT terminals to phonon waveguides is modeled by means of a general circuit representation that makes use of Scattering Matrix (SM) formalism. In particular, the three-step calibration approach called the Thru-Reflection-Line (TRL), that is a well-established technique in microwave engineering, has been successfully applied to emulate typical experimental conditions. The proposed procedure is suitable for the synthesis/optimization of surface-acoustic-wave (SAW) based devices: the TRL calibration allows to extract/de-embed the acoustic component, namely resonator or filter, from the outer IDT structure, regardless of complexity and size of the letter. We report, as a result, the hybrid scattering parameters of the IDT transition to a mechanical waveguide formed by a phononic crystal patterned on a piezoelectric AlN membrane, where the effect of a discontinuity from periodic to uniform mechanical waveguide is also characterized. In addition, to ensure the correctness of our numerical calculations, the proposed method has been validated by independent calculations.
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-018-27511-0