Anisotropic spin-driven ferroelectricity and magnetoelectric effect in a Y-type hexaferrite

Searching the optimal doping compositions of the Y-type hexaferrite Ba2Mg2Fe12O22 remains a long-standing challenge for enhanced non-collinear magnetic transition temperature (TNC). Instead of the conventional trial-and-error approach, the composition-property descriptor is established via a data driven machine learning method named sure independence screening and sparsifying operator. Based on the chosen efficient and physically interpretable descriptor, a series of Y-type hexaferrite compositions are predicted to hold high TNC, among which the BaSrMg0.28Co1.72Fe10Al2O22 is then experimentally validated. Test results indicate that, under appropriate external magnetic field conditions, the TNC of this composition reaches up to 568 K, and its magnetic transition temperature is also elevated to 735 K. This work offers a machine learning-based route to develop room temperature single phase multiferroics for device applications.

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Investigation of Mg-Doped Y-Type Barium Hexaferrite Using Mössbauer Spectroscopy

Baik

Shim

Kim

2022

IEEE Trans. Magn.

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Anisotropic spin-driven ferroelectricity and magnetoelectric effect in a Y-type hexaferrite

Cited by 4 publications

References 35 publications

Stabilization of room temperature spin driven ferroelectric phases in Ni2+ doped Y- type BaSrCo2-xNixFe11AlO22

Stabilization of room temperature spin driven ferroelectric phases in Ni2+ doped Y- type BaSrCo2-xNixFe11AlO22

Optimization of noncollinear magnetic ordering temperature in Y-type hexaferrite by machine learning

Investigation of Mg-Doped Y-Type Barium Hexaferrite Using Mössbauer Spectroscopy

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