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An A1 Mode Resonator at 12 GHz using 160nm Lithium Niobate Suspended Thin Film

Steffen Link, Ruochen Lu, Yansong Yang, Ahmed E. Hassanien, Songbin Gong

202127 citationsDOI

Abstract

This paper demonstrates a 160 nm thick first- and third-order antisymmetric mode Lithium Niobate resonator. The presented device maintains feature sizes on the order of micrometers by thinning the piezoelectric resulting in a first-order mode at 11.77 GHz through direct scaling of state-of-the-art design approaches. Thinning leverages an Argon-based low-power physical etch, with attention paid specifically to surface roughness. The fabricated device demonstrates a first-order antisymmetric series resonant frequency of 11.77 GHz with an electromechanical coupling of 23.6% and a mechanical quality factor of 148 for a Figure of Merit of 35.1. In addition, the resonator's third-order antisymmetric mode achieves an electromechanical coupling of 3.7% and a mechanical quality factor of 66 at a frequency of 34.7 GHz.

Topics & Concepts

ResonatorLithium niobateMaterials scienceAntisymmetric relationFigure of meritQ factorOptoelectronicsOpticsCoupling (piping)PhysicsComposite materialMathematical physicsAcoustic Wave Resonator TechnologiesFerroelectric and Piezoelectric MaterialsMechanical and Optical Resonators
An A1 Mode Resonator at 12 GHz using 160nm Lithium Niobate Suspended Thin Film | Litcius