%0 Journal Article
%A S.B Ogale
%A Y.H Li
%A M Rajeswari
%A L.S Riba
%A Ramamoorthy Ramesh
%A T Venkatesan
%A A.J Millis
%A R Kumar
%A G.K Mehta
%A R Bathe
%A S.I Patil
%B Journal of Applied Physics
%D 2000
%G eng
%I American Institute of Physics Inc.
%P 4210-4215
%R 10.1063/1.373054
%T Columnar defect induced phase transformation in epitaxial La0.7Ca0.3MnO3 films
%V 87
%X Epitaxial La0.7Ca0.3MnO3 thin films on the SrTiO3(100) surface have been irradiated with 250 MeV Ag17+ ions at different nominal fluence values in the range of 5 × 1010-4 × 1011 ions/cm2, resulting in columnar defects. At low fluences these defects cause changes in material properties that are small and scale linearly with dosage. Above a threshold fluence value ∼3 × 1011 ions/cm2 dramatic changes are observed, including an order of magnitude increase in the resistivity and 50 K drop in the Curie temperature. Transmission electron microscopy measurements show that the changes are associated with a phase transformation of the undamaged region between the columnar defects. The transformed phase has a diffraction pattern very similar to that seen in charge-ordered La0.5Ca0.5MnO3. We propose that above a critical level of ion damage, strains caused by the presence of the columnar defects induce a charge-ordering phase transition that causes the observed dramatic changes in physical properties. We speculate that a conceptually similar surface-induced charge ordering may be responsible for the "dead layer" observed in very thin strained films, and the dramatic changes in optical properties induced by polishing, and that an impurity-induced charge ordering causes the extreme sensitivity of properties to lattice substitution. © 2000 American Institute of Physics.