Investigation of zero temperature compensated cuts in langasite-type piezocrystals for high temperature applications

Langasite-type crystals, including La₃Ga_5.5Nb _0.5O₁₄ (LGN), and La₃Ga_5.5Ta _0.5O₁₄(LGT) with disordered structure, and Ca ₃TaGa₃Si₂O₁₄ (CTGS) and Ca ₃NbGa₃Si₂O₁₄ (CNGS) with ordered structure, were grown using the Czochralski method. Resistivity was studied as a function of temperature. Temperature coefficients of frequency (TCFs) for different cuts were investigated in the above crystals at elevated temperatures, which were found to be 11 ppm K^-1 and 6.0 ppm K^-1 up to 400 °C for LGN (YXl)1.5° and LGT (YXl) - 20° cuts, respectively, in thickness shear mode, while the TCF was found to be 21 ppm K^-1 up to 800 °C for CTGS (YXl) - 20° and CNGS (YXl) - 20°. Furthermore, the dielectric and electromechanical behaviour of the above crystals with low TCF cuts as a function of temperature were studied. It was observed that CTGS and CNGS crystals with an ordered structure possessed temperature independent dielectric and electromechanical behaviour up to 800 °C, making CTGS and CNGS potential candidates for high temperature sensor applications.