Domain structure and phase transitions in epitaxial KNbO3 thin films studied by in situ second harmonic generation measurements

Abstract

Epitaxial thin films of KNbO₃ were deposited on SrTiO₃ (100) substrate by laser ablation. In the orthorhombic phase, the four possible domain variants in the KNbO₃ (110) film growth plane were determined to be KNbO₃[11̄0]∥SrTiO₃[001], [001̄], [010], and [01̄0] denoted as X+, X−, Y+, and Y−, respectively. Using a fundamental beam of 1064 nm transmitted normal to the film, the second harmonic generation (SHG) signal at 532 nm was measured and correlated to the area fractions A^X+, A^X−, A^Y+, and A^Y− of the four domain variants X+, X−, Y+, and Y−, respectively, in the growth plane of the film. At room temperature, the area fractions δA_x=A^X+−A^X− and δA_y=A^Y+−A^Y− were determined to be ∼3.3% and ∼2.2%, respectively. In‐situ SHG measurements revealed the phase transitions to be 210±10 °C for orthorhombic–tetragonal and 450±10 °C for tetragonal–cubic transitions. In the tetragonal phase (between 210 °C and 450 °C) the KNbO₃ 〈100〉∥SrTiO₃ 〈100〉. The use of SHG as a sensitive, non‐destructive and real‐time probe of phase transitions and evolution of domains in ferroelectric thin films is demonstrated.