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Multiferroic nitride perovskites with giant polarizations and large magnetic moments

Churen Gui, Jun Chen, Shuai Dong

2022Physical review. B./Physical review. B14 citationsDOIOpen Access PDF

Abstract

Multiferroics with coupling between ferroelectricity and magnetism have been pursued for decades. However, their magnetoelectric performances remain limited due to the common trade-off between ferroelectricity and magnetism. Here, a family of nitride perovskites is proposed as multiferroics with prominent physical properties and nontrivial mechanisms. Taking ${\mathrm{GdWN}}_{3}$ as a prototype, our first-principles calculations found that its perovskite phases own large polarizations (e.g., $111.3\phantom{\rule{4pt}{0ex}}\ensuremath{\mu}\mathrm{C}/{\mathrm{cm}}^{2}$ for the $R3c$ phase) and a magnetic moment $7\phantom{\rule{4pt}{0ex}}{\ensuremath{\mu}}_{\mathrm{B}}/{\mathrm{Gd}}^{3+}$. More interestingly, its ferroelectric origin is multiple, with significant contributions from both ${\mathrm{Gd}}^{3+}$ and ${\mathrm{W}}^{6+}$ ions, different from its sister member ${\mathrm{LaWN}}_{3}$ in which the ferroelectricity almost arises from ${\mathrm{W}}^{6+}$ ions only. With decreasing size of rare-earth ions, the $A$ site ions would contribute more and more to the ferroelectric instability. Considering that small rare-earth ions can be primary origins of both proper ferroelectricity and magnetism in nitride perovskites, our work provides a route to pursuit more multiferroics with unconventional mechanisms and optimal performances.

Topics & Concepts

MultiferroicsFerroelectricityMagnetismCondensed matter physicsMagnetic momentIonMaterials scienceNitridePerovskite (structure)Coupling (piping)PhysicsNanotechnologyCrystallographyChemistryDielectricQuantum mechanicsLayer (electronics)OptoelectronicsMetallurgyMultiferroics and related materialsFerroelectric and Piezoelectric MaterialsMagnetic and transport properties of perovskites and related materials
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