Title :
Self-polarized pyroelectric LiTaO3 thin films
Author :
Garraud, Alexandra ; Nadar, Salman ; Giani, Alain ; Combette, Philippe
Author_Institution :
IES-UMR5214, Montpellier, France
Abstract :
We present a characterization study to develop self-polarized, highly pyroelectric lithium tantalate thin films obtained by RF magnetron sputtering. A preliminary work is done on the bottom electrode to reduce short-term variations of the pyroelectric behavior. Then, the influence of pressure and of deposition temperature is studied to determine the best set of parameters as to obtain a large pyroelectric behavior. The crystalline structure modification as well as the influence on the pyroelectric coefficient have been studied in each case. An as-deposited pyroelectric coefficient as high as 32 μC.m-2.K-1 has been obtained for the optimal set of pressure (2 mTorr) and temperature (630 °C).
Keywords :
dielectric thin films; lithium compounds; pyroelectricity; sputter deposition; LiTaO3; RF magnetron sputter deposition; crystalline structure modification; pressure 2 mtorr; pyroelectric coefficient; pyroelectric lithium tantalate thin films; self-polarized pyroelectric thin films; temperature 630 degC; Electrodes; Lithium compounds; Materials; Sputtering; Temperature distribution; Temperature measurement; Pyroelectric; RF magnetron sputtering; lithium tantalate; thin films;
Conference_Titel :
Design, Test, Integration and Packaging of MEMS/MOEMS (DTIP), 2014 Symposium on
Print_ISBN :
978-2-35500-028-7
DOI :
10.1109/DTIP.2014.7056642
