The study of low-damping multiferroic materials with strong magnetodielectric coupling is important for advancing several areas in electronics and spintronics; because of the scarcity of these materials, though, they have… Click to show full abstract
The study of low-damping multiferroic materials with strong magnetodielectric coupling is important for advancing several areas in electronics and spintronics; because of the scarcity of these materials, though, they have not seen industrial application. This study investigates a high-temperature multiferroic oxide with exceptionally low damping, and reveals an overlooked checkerboard ordering of oxygen vacancies in the structure, which could shed light on the physical aspects that rule the material's functional applicability.
               
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