Enhancing the magnetoelectric coupling of Co4Nb2O9[100] by substitution of Mg for Co

Abstract

We report experimental studies on enhancing the magnetoelectric (ME) coupling of Co4Nb2O9 by substitution of non-magnetic metal Mg for Co. A series of single crystal Co4-xMgxNb2O9 (x=0, 1, 2, 3) with a single-phase corundum-type structure are synthesized by the optical floating zone method, and the good quality and crystallographic orientations of the synthesized samples are confirmed by Laue spots and sharp XRD peaks. Although the Neel temperature (TN) of the Mg substituted crystals are slightly decreased from 27 K for pure Co4Nb2O9 to 19 K and 11 K for Co3MgNb2O9 and Co2Mg2Nb2O9, respectively, the ME coupling is double enhanced by Mg substitution when x=1. For the magnetic field (electric field) control of electric polarization (magnetization), the ME coefficient αME of Co3MgNb2O9 is measured to be 12.8 ps/m (13.7 ps/m). These results indicate that the Mg substituted Co4-xMgxNb2O9 (x=1) could serve as a potential material candidate for applications in future logic spintronics and logic devices.