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Three-dimensional domain identification in a single hexagonal manganite nanocrystal

Ahmed H. Mokhtar, David Serban, D. G. Porter, F. Lichtenberg, Stephen P. Collins, A. Bombardi, Nicola A. Spaldin, Mary Newton

2024Nature Communications10 citationsDOIOpen Access PDF

Abstract

Abstract The three-dimensional domain structure of ferroelectric materials significantly influences their properties. The ferroelectric domain structure of improper multiferroics, such as YMnO 3 , is driven by a non-ferroelectric order parameter, leading to unique hexagonal vortex patterns and topologically protected domain walls. Characterizing the three-dimensional structure of these domains and domain walls has been elusive, however, due to a lack of suitable imaging techniques. Here, we present a multi-peak Bragg coherent x-ray diffraction imaging determination of the domain structure in single YMnO 3 nanocrystals. We resolve two ferroelectric domains separated by a domain wall and confirm that the primary atomic displacements occur along the crystallographic c-axis. Correlation with atomistic simulations confirms the Mexican hat symmetry model of domain formation, identifying two domains with opposite ferroelectric polarization and adjacent trimerization, manifesting in a clockwise arrangement around the hat’s brim.

Topics & Concepts

FerroelectricityMultiferroicsCondensed matter physicsDomain (mathematical analysis)Materials scienceManganitePolarization (electrochemistry)NanocrystalHexagonal crystal systemSymmetry (geometry)DiffractionVortexCrystallographyDomain wall (magnetism)NanotechnologyOpticsPhysicsGeometryFerromagnetismChemistryMagnetizationOptoelectronicsDielectricQuantum mechanicsMathematicsMagnetic fieldMathematical analysisPhysical chemistryThermodynamicsAdvanced X-ray Imaging TechniquesCrystallography and Radiation PhenomenaHigh-pressure geophysics and materials
Three-dimensional domain identification in a single hexagonal manganite nanocrystal | Litcius