| High temperature acoustic wave (AW) devices capable of operating above 600°C and in hostile environments have opened potential applications for monitoring industrial processes, power plants, and aerospace systems. The authors have reported on the development of thin film electrodes and protective ceramic layers to allow surface acoustic wave (SAW) device operation up to 800°C on langasite (LGS) crystals. This success motivated further study of the electrode material and protective ceramic overlayer, as well as investigations of long term performance, temperature cycling and shock behavior, reported in this work. Among the results reported are: behavior of a co-deposited Pt/Rh/ZrO2 composite electrode structure up to 1000°C; investigation of oxygen rich and nitrogen rich SiAlON protective ceramic layers; long term (4080 hours) operation of a two-port SAW resonators at 800°C; cyclical thermal tests between room temperature and 850°C; and thermal shock tests of crystals between 700°C and room temperature. |