Abstract
Abstract
Magnetic-field induced dynamic magnetoelectric coupling effects and polarization performance of Z-type Sr3Co2Fe24O41 (SCFO) ceramic has been investigated. Results found that SCFO’s transverse tapered magnetic structure can induce electric polarization, and its electric polarization direction will not change under external magnetic effects. First-order dynamic magnetoelectric coupling coefficient (α) and second-order dynamic magnetoelectric coupling coefficient (β) of SCFO exhibited strong response main in magnetic structural phase transition region. The magnetoelectric structural phase transition position appeared in low magnetic field, and the magnetic moment vector and its corresponding electric polarization vector of SCFO exhibited the most unstable state near its equilibrium position, which is beneficial for inducing strong dynamic magnetoelectric coupling response. When the applied magnetic fields to SCFO increased, the magnetic moment stability near the equilibrium position increased, and the dynamic magnetoelectric coupling response decreased. Results showed that the dynamic magnetoelectric coupling response of SCFO can bear T
1 = 370 K high temperature. The dynamic magnetoelectric coupling response induced by low magnetic fields in SCFO contributes to its actual application in next generation magnetoelectric information storage devices.
Funder
National Natural Science Foundation of China
Subject
Condensed Matter Physics,General Materials Science
Reference35 articles.
1. Advances in magnetoelectric multiferroics;Spaldin;Nat. Mater.,2019
2. Structural, thermomagnetic, and dielectric properties of Mn0.5Zn0.5Gd x Fe2−x O4 (x = 0, 0.025, 0.050, 0.075, and 0.1);Phor;J. Adv. Ceram.,2020
3. Magnetoelectric and multiferroic media;Pyatakov;Phys. Usp.,2012
4. Enhanced ferroelectricity and magnetism of quenched (1−x)BiFeO3−x BaTiO3 ceramics;Bai;J. Adv. Ceram.,2020
5. Magnetoelectric hexaferrites;Kimura;Annu. Rev. Condens. Matter Phys.,2012
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