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Main Authors: Liffredo, Marco, Stettler, Silvan, Peretti, Federico, Villanueva, Luis Guillermo
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2407.20286
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author Liffredo, Marco
Stettler, Silvan
Peretti, Federico
Villanueva, Luis Guillermo
author_facet Liffredo, Marco
Stettler, Silvan
Peretti, Federico
Villanueva, Luis Guillermo
contents We report on the fabrication of a Hybrid SAW/BAW resonator made of a thin layer of Sc-doped AlN (AlScN) with a Sc concentration of 40 at% on a 4H-SiC substrate. A Sezawa mode, excited by a vertical electric field, exploits the d31 piezoelectric coefficient to propagate a longitudinal acoustic wave in the AlScN. The resonant frequency is determined via the pitch in the interdigitated transducer (IDT) defined by Deep Ultraviolet (DUV) lithography. The resonant mode travels in the piezoelectric layer without leaking in the substrate thanks to the mismatch in acoustic phase velocities between the piezoelectric and substrate materials. We show the impact of the piezoelectric and IDT layers' thickness on the two found modes. Importantly, we show how thin piezoelectric and electrode layers effectively suppress the Rayleigh mode. While some challenges in the deposition of AlScN remain towards a large coupling coefficient k_eff^2, We show how wave confinement in the IDT obtains a good quality factor. We also show how modifying the IDT reflectivity allows us to engineer a stopband to prevent unwanted modes from being excited between resonance and antiresonance frequencies. Finally, we validate the simulation with fabricated and measured devices and present possible improvements to this resonator architecture.
format Preprint
id arxiv_https___arxiv_org_abs_2407_20286
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Rayleigh Wave Suppression in Al0.6Sc0.4N-on-SiC Resonators
Liffredo, Marco
Stettler, Silvan
Peretti, Federico
Villanueva, Luis Guillermo
Materials Science
We report on the fabrication of a Hybrid SAW/BAW resonator made of a thin layer of Sc-doped AlN (AlScN) with a Sc concentration of 40 at% on a 4H-SiC substrate. A Sezawa mode, excited by a vertical electric field, exploits the d31 piezoelectric coefficient to propagate a longitudinal acoustic wave in the AlScN. The resonant frequency is determined via the pitch in the interdigitated transducer (IDT) defined by Deep Ultraviolet (DUV) lithography. The resonant mode travels in the piezoelectric layer without leaking in the substrate thanks to the mismatch in acoustic phase velocities between the piezoelectric and substrate materials. We show the impact of the piezoelectric and IDT layers' thickness on the two found modes. Importantly, we show how thin piezoelectric and electrode layers effectively suppress the Rayleigh mode. While some challenges in the deposition of AlScN remain towards a large coupling coefficient k_eff^2, We show how wave confinement in the IDT obtains a good quality factor. We also show how modifying the IDT reflectivity allows us to engineer a stopband to prevent unwanted modes from being excited between resonance and antiresonance frequencies. Finally, we validate the simulation with fabricated and measured devices and present possible improvements to this resonator architecture.
title Rayleigh Wave Suppression in Al0.6Sc0.4N-on-SiC Resonators
topic Materials Science
url https://arxiv.org/abs/2407.20286