K. Lee scite author profile

Multiferroic materials, which offer the possibility of manipulating the magnetic state by an electric field or vice versa, are of great current interest. In this work, we demonstrate the first observation of electrical control of antiferromagnetic domain structure in a single-phase multiferroic material at room temperature. High-resolution images of both antiferromagnetic and ferroelectric domain structures of (001)-oriented multiferroic BiFeO3 films revealed a clear domain correlation, indicating a strong coupling between the two types of order. The ferroelectric structure was measured using piezo force microscopy, whereas X-ray photoemission electron microscopy as well as its temperature dependence was used to detect the antiferromagnetic configuration. Antiferromagnetic domain switching induced by ferroelectric polarization switching was observed, in agreement with theoretical predictions.

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A TPC detector for the study of high multiplicity heavy ion collisions

Rai

Arthur

Bieser

et al. 1990

IEEE Trans. Nucl. Sci.

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Epitaxial Multiferroic BiFeO₃Thin Films: Progress and Future Directions

et al. 2007

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Nanoscale x-ray magnetic circular dichroism probing of electric-field-induced magnetic switching in multiferroic nanostructures

Zhao

Schöll

Zavaliche

et al. 2007

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K. Lee

Electrical control of antiferromagnetic domains in multiferroic BiFeO3 films at room temperature

A TPC detector for the study of high multiplicity heavy ion collisions

Epitaxial Multiferroic BiFeO₃Thin Films: Progress and Future Directions

Nanoscale x-ray magnetic circular dichroism probing of electric-field-induced magnetic switching in multiferroic nanostructures

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K. Lee

Electrical control of antiferromagnetic domains in multiferroic BiFeO3 films at room temperature

A TPC detector for the study of high multiplicity heavy ion collisions

Epitaxial Multiferroic BiFeO3Thin Films: Progress and Future Directions

Nanoscale x-ray magnetic circular dichroism probing of electric-field-induced magnetic switching in multiferroic nanostructures

Contact Info

Product

Resources

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Epitaxial Multiferroic BiFeO₃Thin Films: Progress and Future Directions