@article{33864, keywords = {Substrates, Stresses, Lanthanum compounds, Magnetic anisotropy, Strontium compounds, Magnetization, Crystal lattices, Ferromagnetic resonance, Magnetic thin films, Microscopic examination, Magnetic hysteresis, Magnetic force microscopy (MFM), Stress-induced surface magnetization}, author = {C Kwon and S.E Lofland and S.M Bhagat and M Rajeswari and T Venkatesan and Ramamoorthy Ramesh and A.R Kratz and R.D Gomez}, title = {Stress-Induced Surface Magnetization of (La0.7Sr0.3)MnO3 Thin Films}, abstract = {The role of stress on magnetic properties of epitaxial (La0.7Sr0.3)MnO3 (LSMO) films has been studied. We have investigated 1100 A thick LSMO films deposited on LaAlO3 (Sample L, under a compressive stress) and SrTiO3 (Sample S, under a tensile stress) using the magnetic force microscopy (MFM), DC hysteresis loop, ferromagnetic resonance (FMR) measurements. The magnetic force microscope image of Sample L shows a "maze-like" pattern indicating a sizable out-of-plane magnetization, while the magnetic image of Sample S shows a "feather-like" pattern indicative of an in-plane magnetization. The hysteresis loop and ferromagnetic resonance measurements give quantitative evidence for the role of the lattice mismatch between the film and the substrate in the magnetic anisotropy of the two films. Our systematic examination of various thickness LSMO films on LaAlO3 reveals that the maze pattern i s exhibited only between 500 Aand 1700 A thick films. Despite of larger anisotropy, no maze pattern is observed in films thinner than 360 A. © 1997 IEEE.}, year = {1997}, journal = {IEEE Transactions on Magnetics}, volume = {33}, number = {5 PART 2}, pages = {3964-3966}, issn = {00189464}, doi = {10.1109/20.619630}, note = {cited By 15}, language = {eng}, }