Multiferroics have become the focus of exciting research in recent years. The reason being is that this newly discovered class of materials have unusual properties that are not found in other ...
Crafting the magnonic and spintronic response of BiFeO 3 films by epitaxial strain The ferroelectric properties of BiFeO 3 have been the subject of extensive study. Using a range of experimental tools ...
Multiferroics are materials that exhibit more than one ferroic property, typically ferroelectricity (i.e., a spontaneous electric polarization that can be reversed by electric fields) and ...
The recent progress on two-dimensional (2D) van der Waals ferroelectrics may revolutionize the applications of ferroelectric (FE) materials in nanoelectronics. Their atomic-thickness renders ...
While most multiferroics can't operate above room temperature, a team of researchers at Tohoku University demonstrated that terbium oxide Tb 2 (MoO 4) 3 works as a multiferroic even at 160°C. The work ...
Ferromagnetism is the core process responsible for the formation of permanent magnets. In non-magnetic compounds, permanent magnetic dipoles typically line up antiparallel, canceling each other out.
Multiferroics possess more than one form of order parameter, such as magnetization or electric polarization. The most commonly studied class of these materials are magnetoelectric multiferroics, where ...