Thermal lensing investigation on bulk ceramics and thin-film PLZT using visible and far-infrared laser beams

Abstract

The real-time thermo-optical properties of thin-film relaxor ferroelectric (9/65/35) lead lanthanum zirconate titanate (PLZT) films (∼2μm) were investigated and compared to identical composition of thick PLZT ceramics (∼1mm). Since PLZT absorbs strongly in the far-infrared, a CO2 laser beam (λ=10.6μm) was used to create a Gaussian temperature distribution at the surface of the material, emulating a lens. Subsequently, a low power visible He–Ne laser, travelling along the same path as the CO2 laser, probed the optical properties of the induced PLZT thermal lens. It was found that identical composition thin-film and thick PLZT ceramics have opposite thermal lensing behaviors. An explanation of this phenomenon is provided from basic physical concepts.