Add to ORKGLithium niobate thin films have been grown on diamond/silicon substrates by metallo-organic decomposition and radio frequency (R. F.) magnetron sputtering. The surface acoustic wave (SAW) characterizations of the multilayer lithium niobate/diamond/silicon are calculated. The lithium niobate thin films as well as the diamond/silicon substrates are structurally analyzed using techniques such as Bragg X-ray diffraction, scanning electron microscopy, atomic force microscopy, electron microprobe, and Raman spectroscopy to determine their crystal structure, surface morphology and composition distribution. With the use of a lift-off photolithography planar process, surface acoustic wave filter devices on substrates such as lithium niobate single c...
[[abstract]]The propagation characteristics of surface acoustic wave for the ZnO piezoelectric films...
Surface acoustic wave (SAW) devices are key components in modern wireless communication systems. Bes...
[[abstract]]Diamond is one of the best SAW substrate candidates due to its highest sound velocity an...
Lithium niobate has a number of attractive piezoelectric and ferroelectric properties that have been...
International audienceThe need for high-frequency, wide-band filters has instigated many development...
The surface acoustic wave (SAW) propagating characteristics of Y-cut nano LiNbO3 (LN) film on SiO2/L...
International audienceFilter market demand pushes to the development of new piezoelectric materials ...
With the increasing volume of wireless communication globally, the demand for more sophisticated ac...
Surface acoustic wave (SAW) devices are widely used in many fields such as mobile communication, pha...
Reaching the full potential of the 5th Generation of mobile applications (5G) requires pushing the p...
International audienceSurface acoustic waves (SAW) technology is very promising to achieve high-temp...
[[abstract]]The propagation characteristics of surface acoustic wave for the ZnO piezoelectric films...
Surface acoustic wave (SAW) devices are key components in modern wireless communication systems. Bes...
[[abstract]]Diamond is one of the best SAW substrate candidates due to its highest sound velocity an...
Lithium niobate has a number of attractive piezoelectric and ferroelectric properties that have been...
International audienceThe need for high-frequency, wide-band filters has instigated many development...
The surface acoustic wave (SAW) propagating characteristics of Y-cut nano LiNbO3 (LN) film on SiO2/L...
International audienceFilter market demand pushes to the development of new piezoelectric materials ...
With the increasing volume of wireless communication globally, the demand for more sophisticated ac...
Surface acoustic wave (SAW) devices are widely used in many fields such as mobile communication, pha...
Reaching the full potential of the 5th Generation of mobile applications (5G) requires pushing the p...
International audienceSurface acoustic waves (SAW) technology is very promising to achieve high-temp...
[[abstract]]The propagation characteristics of surface acoustic wave for the ZnO piezoelectric films...
Surface acoustic wave (SAW) devices are key components in modern wireless communication systems. Bes...
[[abstract]]Diamond is one of the best SAW substrate candidates due to its highest sound velocity an...