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mm-band surface acoustic wave devices utilizing two-dimensional boron nitride SCIE SCOPUS

Title
mm-band surface acoustic wave devices utilizing two-dimensional boron nitride
Authors
Yoon, Seok HyunBaek, Chang-KiKONG, BYOUNG DON
Date Issued
2022-11
Publisher
Nature Publishing Group
Abstract
AbstractThe simple structure, low power consumption, and small form factor have made surface acoustic wave (SAW) devices essential to mobile communication as RF filters. For instance, the latest 5G smartphones are equipped with almost 100 acoustic wave filters to select a specific frequency band and increase communication capacity. On the arrival of the newest communication standard, 5G, mm-band up to 39 GHz is supposed to be utilized, whereas the conventional SAW filters are limited to below 3 GHz, leaving a critical component missing. Here, we show an emerging 2D material—hexagonal boron nitride—can become a key enabler of mm-band SAW filter. Our study, based on first principles analysis and acousto-electric simulation, shows the operating frequency of SAW devices can reach over 20 GHz in its fundamental mode and 40 GHz in its interface mode with high electromechanical coupling coefficient (K2) and low insertion loss. In addition to the orders of magnitude improvement compared to the conventional SAW devices, our study provides a systematic approach to utilizing van der Waals crystals with highly anisotropic acoustic properties for practical applications.
URI
https://oasis.postech.ac.kr/handle/2014.oak/114456
DOI
10.1038/s41598-022-24852-9
ISSN
2045-2322
Article Type
Article
Citation
Scientific Reports, vol. 12, no. 1, 2022-11
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백창기BAEK, CHANG KI
Dept. Convergence IT Engineering
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