Common features of low-temperature spin–charge separation and superlattice formation in multiferroic manganites and antiferromagnetic cuprates
Author:
Publisher
IOP Publishing
Subject
Condensed Matter Physics,General Materials Science
Link
http://stacks.iop.org/0953-8984/25/i=33/a=336001/pdf
Reference46 articles.
1. Phase separation and charge carrier self-organization in semiconductor-multiferroicEu0.8Ce0.2Mn2O5
2. Magnetic properties of multiferroics–semiconductors Eu1−xCexMn2O5
3. A neutron diffraction study of RMn2O5multiferroics
4. Spin-wave resonances in Eu0.8Ce0.2Mn2O5 and EuMn2O5 multiferroics
5. Spin-wave excitations in superlattices self-assembled in multiferroic single crystals
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1. Methods for controlling the properties of nanoregions formed due to self-organization during electronic phase separation in Eu0.8Ce0.2Mn2O5 multiferroics;Ferroelectrics;2022-04-04
2. Features of electronic phase separation in multiferroic ErMn2O5;Ferroelectrics;2022-04-04
3. Similarity of Mechanisms of Formation of Phase Separation Domains in Y3Fe5O12, EuFeO3, YCrO3, Eu2CuO4, and RMn2O5 Multiferroics (Brief Review);JETP Letters;2022-02
4. Optical Control of Superlattices States Formed Due to Electronic Phase Separation in Multiferroic Eu0.8Ce0.2Mn2O5;Nanomaterials;2021-06-24
5. Effect of the Optical Pumping and Magnetic Field on the States of Phase Separation Domains in Eu0.8Ce0.2Mn2O5;JETP Letters;2020-06
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