Evolution of anisotropic magnetostriction in LaMn1-xCoxO3 (x= 0.1-0.9)

Abstract

Polycrystalline samples of LaMn1-xCoxO3 series over a wide compositional range (x = 0.1 - 0.9) were synthesized by microwave irradiation of oxide precursors and their magnetic and magnetostrictive properties were investigated. Magnetostrictions parallel (lpar) and perpendicular (lper) to the applied magnetic field were measured to estimate anisotropic(lanis) and volume magnetostrictions(lvol). In all the compositions, l-par (lper) is negative (positive) and (lanis) >> (lvol), suggesting dominance of anisotropic lattice distortion under a magnetic field. The value of lanis at 10 K for H = 50 kOe initially increases with x from 178 ppm for x = 0.1 to a maximum of 1221 ppm at x = 0.5 before decreasing for higher x. The composition dependence of magnetostriction is asymmetric about x = 0.5, the decrease for x > 0.5 is more steeper than for x < 0.5 whereas saturation magnetization decreases monotonically with increasing x except for an abrupt change at x = 0.6. The largest anisotropic magnetostriction observed for x = 0.5 is attributed to the presence of high-spin Co2+ ions with a non-zero orbital moment in the maximum fraction whereas Mn3+/4+ or Co3+ ions play minor roles. The composition dependence of magnetostriction is suggested to arise from changes in the structure, valence states of Mn and Co ions and magnetic interactions among them.