Add to ORKGSurface Acoustic Wave (SAW) devices featuring Aluminum Scandium Nitride (AlScN) on a 4H-Silicon Carbide (SiC) substrate, offer a unique blend of high sound velocity, low thermal resistance, substantial piezoelectric response, simplified fabrication, as well as suitability for high-temperature and harsh environment operation. This study presents high-frequency SAW resonators employing AlScN thin films on SiC substrates, utilizing the second SAW mode (referred to as the Sezawa mode). The resonators achieve remarkable performance, boasting a K2 value of 5.5% and a maximum Q-factor (Qmax) of 1048 at 4.7 GHz, outperforming previous benchmarks. Additionally, a SAW resonator with a 960 nm wavelength attains 5.9 GHz frequency with record K2 (4.0%) ...
The explosive development of wireless and mobile communication systems has continuously driven rapid...
Radio frequency (RF) microelectromechanical system (MEMS) resonators employing Lamb waves propagatin...
The increasing demands for higher performance, advanced wireless and mobile communication systems ha...
AlN and AlScN thin films with 27% scandium (Sc) were synthesized by DC magnetron sputtering depositi...
During the last decades, sensors technology has been increasingly developed. The widespread use of s...
This paper presents a comprehensive study of the performance of Sezawa surface acoustic wave (SAW) d...
The explosive development of wireless and mobile communication systems has lead to rapid technology ...
International audienceAluminium nitride piezoelectric thin films grown on sapphire are strong candid...
Nowadays, no less than 21 sensors are used to monitor the health conditions of aircraft engines. How...
Mobile communication has grown explosively in recent years, leading to a strong demand for cheap, bu...
This letter describes the procedure to manufacture high-performance surface acoustic wave (SAW) res...
In this work, we predict the surface acoustic wave characteristics by 2D COMSOL finite element model...
Since the commercialization of surface acoustic wave (SAW) devices, the technology is steadily incre...
This paper reports the characterization of scandium aluminum nitride (Al1−x Sc x N, x = 27%) films...
Additional contributors: Dr. Jong Noh, Yu Chen, Huan Li, Dr. Mo Li (faculty mentor)Surface acoustic ...
The explosive development of wireless and mobile communication systems has continuously driven rapid...
Radio frequency (RF) microelectromechanical system (MEMS) resonators employing Lamb waves propagatin...
The increasing demands for higher performance, advanced wireless and mobile communication systems ha...
AlN and AlScN thin films with 27% scandium (Sc) were synthesized by DC magnetron sputtering depositi...
During the last decades, sensors technology has been increasingly developed. The widespread use of s...
This paper presents a comprehensive study of the performance of Sezawa surface acoustic wave (SAW) d...
The explosive development of wireless and mobile communication systems has lead to rapid technology ...
International audienceAluminium nitride piezoelectric thin films grown on sapphire are strong candid...
Nowadays, no less than 21 sensors are used to monitor the health conditions of aircraft engines. How...
Mobile communication has grown explosively in recent years, leading to a strong demand for cheap, bu...
This letter describes the procedure to manufacture high-performance surface acoustic wave (SAW) res...
In this work, we predict the surface acoustic wave characteristics by 2D COMSOL finite element model...
Since the commercialization of surface acoustic wave (SAW) devices, the technology is steadily incre...
This paper reports the characterization of scandium aluminum nitride (Al1−x Sc x N, x = 27%) films...
Additional contributors: Dr. Jong Noh, Yu Chen, Huan Li, Dr. Mo Li (faculty mentor)Surface acoustic ...
The explosive development of wireless and mobile communication systems has continuously driven rapid...
Radio frequency (RF) microelectromechanical system (MEMS) resonators employing Lamb waves propagatin...
The increasing demands for higher performance, advanced wireless and mobile communication systems ha...