Litcius/Paper detail

Electric-field-controlled magnetism due to field-induced transition of Pna21/R3c in Bi1-xGdxFeO3 ceramics

Jing Chen, Nan Su, Xiao Li Zhu, Xiao Qiang Liu, Jinxing Zhang, Xiang Ming Chen

2021Journal of Materiomics15 citationsDOIOpen Access PDF

Abstract

BiFeO3 has been recognized as one of the most important room-temperature single-phase multiferroic materials, but it still suffers from several drawbacks especially the weak magnetoelectric coupling. In the present work, the electric-field-controlled magnetism is achieved in Bi1-xGdxFeO3 system, which involves a field-induced transition of Pna21/R3c at the morphotropic phase boundary region, and the magnetic state is switched between cycloidal state and canted antiferromagnetic state. The electric-field-controlled magnetism becomes reversible with the help of annealing, which is confirmed by magnetic hysteresis loops and the quantitative ratio of the involved phases for the as-sintered, as-poled and as-annealed samples. Compared with the systems of Bi1-xNdxFeO3 and Bi1-xSmxFeO3, it is easier to tune the symmetry from R3c to Pna21 with lower rare earth-content, and the field-induced transition is more apparent and subsequently leads to more significant electric-field-controlled magnetism in a wider composition range.

Topics & Concepts

MagnetismCondensed matter physicsMultiferroicsMaterials scienceAntiferromagnetismPhase boundaryElectric fieldPhase transitionCritical fieldMagnetizationHysteresisMagnetic fieldFerroelectricityPhase (matter)DielectricSuperconductivityPhysicsQuantum mechanicsOptoelectronicsMultiferroics and related materialsFerroelectric and Piezoelectric MaterialsTeratomas and Epidermoid Cysts