Magnetotransport Properties in Epitaxial Exchange-Biased La2/3Ca1/3MnO3 / La1/3Ca2/3MnO3 Superlattices

M. E. GÓMEZ; G. CAMPILLO; J.-G. RAMÍREZ; P. PRIETO; A. HOFFMANN; J. GUIMPEL; N. HABERKORN; A. CONDÓ; F. LOVEY

IEEE TRANSACTIONS ON MAGNETICS

IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC

Año: 2006 vol. 42 p. 2981 - 2983

0018-9464

Superlattices of ferromagnetic (F) and antiferromagnetic (AF) oxide materials have attracted increased attention given the exchange bias or exchange anisotropy phenomenon. Research on magnetic oxide superlattices has focused toward the technological goals of increasing magnetoresistance in lower applied magnetic fields and more useful temperature ranges for various applications. Superlattices of F-LCMO and AF-LCMO layers were grown on (001)-oriented SrTiO3 substrates.We studied the temperature dependence of magnetotransport properties for a series of [AF-LCMO (7.6 nm)/F-LCMO (tF)]N superlattices as a function of the ferromagnetically doped layer thickness, tF, while the antiferromagnetic (AF) layer thickness, tAF, was kept constant. Magnetotransport measurements at different temperatures were done on a series of [AF(7.6 nm)/ F(tF)]N superlattices. The ZFC resistance has a maximum at negative fields, for all multilayers, with descending fields (from 1 to -1 kOe). In all samples a shift along the field axis of the FC loop with respect to that of the ZFC loop is observed. The Hex values determined from these displacements of the FC loops of the magnetoresistance loops increase when temperature decreases and its magnitude also depends on the ferromagnetic layer thickness.