Title :
Is AlN/Sapphire bilayer structure an alternative to langasite for ultra-high-temperature SAW applications?
Author :
Aubert, Thierry ; Elmazria, Omar ; Bardong, Jochen ; Bruckner, Gudrun ; Assouar, Badreddine
Author_Institution :
Inst. Jean Lamour, Nancy Univ., Vandoeuvre-lès-Nancy, France
Abstract :
This paper explores the potentiality to use AlN/sapphire structure as alternative piezoelectric material to langasite (LGS) for high-temperature SAW applications. In situ SAW measurements performed in vacuum up to 1050°C attest that AlN/Sapphire is more stable than LGS in such conditions. While in the case of LGS, the signal is completely lost after 8 hours at 1050°C, the device based on AlN/sapphire stays alive for 60 hours at this extreme temperature. Moreover, the degradation is attributed not to AlN but to the agglomeration phenomena undergone by the Iridium IDTs. The AlN/Sapphire structure shows also, between room temperature and at least 1050°C, a great sensitivity to temperature as well as a good linearity, which is very suitable for temperature sensor applications.
Keywords :
III-V semiconductors; aluminium compounds; high-temperature effects; interdigital transducers; iridium; piezoelectric materials; piezoelectricity; sapphire; surface acoustic waves; titanium; wide band gap semiconductors; Ir-Ti-AlN-Al2O3; bilayer structure; iridium IDT; langasite; piezoelectric material; temperature 20 degC to 1050 degC; temperature sensor application; time 60 hour; time 8 hour; ultrahigh-temperature SAW application; Delay lines; Films; Substrates; Surface acoustic wave devices; Surface acoustic waves; Temperature measurement; Temperature sensors;
Conference_Titel :
Ultrasonics Symposium (IUS), 2011 IEEE International
Conference_Location :
Orlando, FL
Print_ISBN :
978-1-4577-1253-1
DOI :
10.1109/ULTSYM.2011.0516
