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Literature DB >> 19392237

Engineering multiferroism in CaMnO3.

Satadeep Bhattacharjee¹, Eric Bousquet, Philippe Ghosez.

Abstract

Structural instabilities of CaMnO3 are investigated from first principles. We point out that, on top of a strong antiferrodistortive instability responsible for its orthorhombic ground state, the cubic perovskite structure of CaMnO3 also exhibits a weak ferroelectric instability. Although ferroelectricity is suppressed by antiferrodistortive motions, we show that it can be favored using strain or chemical engineering in order to make CaMnO3 multiferroic. We finally highlight that the ferroelectric instability of CaMnO3 is Mn-dominated. This illustrates that, contrary to common belief, ferroelectricity and magnetism are not necessarily exclusive but can be driven by the same cation.

Entities: Chemical

Year: 2009 PMID： 19392237 DOI： 10.1103/PhysRevLett.102.117602

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

9 in total

1. Strain-induced coupling of electrical polarization and structural defects in SrMnO3 films.

Authors: Carsten Becher; Laura Maurel; Ulrich Aschauer; Martin Lilienblum; César Magén; Dennis Meier; Eric Langenberg; Morgan Trassin; Javier Blasco; Ingo P Krug; Pedro A Algarabel; Nicola A Spaldin; José A Pardo; Manfred Fiebig
Journal: Nat Nanotechnol Date: 2015-06-01 Impact factor: 39.213

2. Tunable ferroelectricity in artificial tri-layer superlattices comprised of non-ferroic components.

Authors: K Rogdakis; J W Seo; Z Viskadourakis; Y Wang; L F N Ah Qune; E Choi; J D Burton; E Y Tsymbal; J Lee; C Panagopoulos
Journal: Nat Commun Date: 2012 Impact factor: 14.919

3. Tunable multiferroic order parameters in Sr₁- _x Ba _x Mn₁- _y Ti _y O₃.

Authors: Kamal Chapagain; Dennis E Brown; Stanislaw Kolesnik; Saul Lapidus; Bianca Haberl; Jamie Molaison; Chuanlong Lin; Curtis Kenney-Benson; Changyong Park; Jaroslaw Pietosa; Ewa Markiewicz; Bartlomiej Andrzejewski; Jeffrey W Lynn; Stephan Rosenkranz; Bogdan Dabrowski; Omar Chmaissem
Journal: Phys Rev Mater Date: 2019 Impact factor: 3.989

4. Relaxation Mechanisms and Strain-Controlled Oxygen Vacancies in Epitaxial SrMnO₃ Films.

Authors: Eric Langenberg; Laura Maurel; Guillermo Antorrena; Pedro A Algarabel; César Magén; José A Pardo
Journal: ACS Omega Date: 2021-05-13

5. Spatially Confined Spin Polarization and magnetic sublattice control in (La,Sr)MnO_3-δ Thin Films by Oxygen Vacancy Ordering.

Authors: Magnus Moreau; Sverre M Selbach; Thomas Tybell
Journal: Sci Rep Date: 2017-06-29 Impact factor: 4.379

Engineering multiferroism in CaMnO3.

1. Strain-induced coupling of electrical polarization and structural defects in SrMnO3 films.

2. Tunable ferroelectricity in artificial tri-layer superlattices comprised of non-ferroic components.

3. Tunable multiferroic order parameters in Sr₁- _x Ba _x Mn₁- _y Ti _y O₃.

4. Relaxation Mechanisms and Strain-Controlled Oxygen Vacancies in Epitaxial SrMnO₃ Films.

5. Spatially Confined Spin Polarization and magnetic sublattice control in (La,Sr)MnO_3-δ Thin Films by Oxygen Vacancy Ordering.

6. Coupling Lattice Instabilities Across the Interface in Ultrathin Oxide Heterostructures.

7. Origin of band gaps in 3d perovskite oxides.

Review 8. Piezoelectric Materials: Properties, Advancements, and Design Strategies for High-Temperature Applications.

9. H3O(+) tetrahedron induction in large negative linear compressibility.