Ideal adiabatic structure LiTaO3 pyroelectric microsensor fabricated by sandblasting technique

We have successfully developed a high performance LiTaO₃ microsensor with ideal adiabatic structure. A finite element method (FEM) was employed to design ideal structure with efficient temperature distribution. The FEM was also employed to reduce a stress concentration of the LiTaO₃ element. Four infrared detector segments were formed in the LiTaO₃ element. Each segment, with 500 μm square, is thermally isolated by an 100 μm wide slit penetrated around the segment using a sandblasting technique. The IR sensitivity per unit area of the developed sensor element is twice that of a conventional type element without slits. Furthermore this small sensor element enables to reduce a size of focusing multi-lens to one-fifth as large as that of the conventional multi-lens. The S/N ration of the developed sensor is five times as large as that of the conventional type pyroelectric sensors such as PZT sensor