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arxiv: 2405.08132 · v1 · pith:ZHHEBF75new · submitted 2024-05-13 · ⚛️ physics.app-ph

Ultra-Wideband Tapered Transducers in Thin-Film Lithium Niobate on Silicon Carbide

classification ⚛️ physics.app-ph
keywords improvedultra-widebandbandwidthdesigncarbidelithiumlossniobate
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Acoustic devices offer significant advantages in size and loss, making them ubiquitous for mobile radio frequency signal processing. However, the usable bandwidth is often limited to the achievable electromechanical coupling, setting a hard limit using typical transducer designs. In this work, we present an ultra-wideband transducer design utilizing a tapered electrode configuration to overcome this limitation. The design is realized on a lithium niobate (LN) on silicon carbide platform, utilizing a combination of first and higher order shear-horizontal modes to generate the ultra-wideband response. The implementation shows a fractional bandwidth (FBW) of 55% at 2.23 GHz with an associated insertion loss (IL) of 26 dB for the measured 50 ohm case. Upon improved impedance matching, this performance could be improved to 79% FBW and an IL of 16.5 dB. Upon further development, this ultra-wideband design could be reasonably scaled towards improved FBW and IL trade off to enable improved usability for cases where bandwidth should be prioritized.

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