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## Review of Article by Science X

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## Author Information

### University of Science and Technology of China

The author of this article is the University of Science and Technology of China, showcasing expertise in the field of technology and innovation.

## Innovative SAW Resonator Design

Surface Acoustic Wave (SAW) resonators have been integral in wireless communication up to 2 GHz but face limitations with the emergence of 5G and 6G technologies operating above 3 GHz. The development of the Coupled Shear SAW (CS-SAW) resonator by a research team at the University of Science and Technology of China addresses these challenges by utilizing two coupling coefficients to enhance performance.

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## Research Findings

The CS-SAW resonator demonstrated exceptional performance with a high electromechanical coupling coefficient of 34% at 5 GHz, setting a new benchmark in acoustic device design. The resonator’s unique design opens up possibilities for applications in wideband filters, tunable resonators, and highly sensitive sensors, showcasing its potential impact on future technology advancements.

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## Additional Resources

For more detailed information on the research findings, readers can refer to the publication in IEEE Electron Device Letters by Zhongbin Dai et al. This citation provides a more in-depth analysis of the CS-SAW resonator’s design and performance metrics, offering additional insights into the study’s scientific contributions.

### Contribution Acknowledgment

This research was provided by the University of Science and Technology of China, highlighting their commitment to advancing technological innovation and research excellence.

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