Translations in Magnetoelectric Universe

Researchers from the Laboratory for Multifunctional Ferroic Materials at the ETH Zurich, in Japan and in France have translated a domain pattern, a block of information, between magnetization and electric-polarization space. This quasi-instantaneous and reversible process is a transfer and not a mere duplication as it erases the information in the source state.

Translation of information from one state into another is key to our society. The general purpose of this information transfer is making information accessible, easier to process and to store.

Pictograms - simple signs - direct us to the restroom or signal situations of danger in universally understandable pictures. More complex information requires converting texts from one language into another to make it accessible - the classical form of a translation.

For electronic data treatment, information is typically translated into differently orientated magnetic or electric regions, written, for example, on a computer hard drive. Configurations of these magnetic or electric regions - the so-called domain patterns - represent blocks of information. Just as it is preferable to get an information in several languages, it is of technological advantage to be able to choose between storage in electronic or magnetic space. The basis for such a selection is given in so-called multiferroic materials that host ferroelectric and magnetic order simultaneously.

In a recent article in Science, researchers from the Laboratory for Multifunctional Ferroic Materials at ETH Zurich, one of the cutting-edge groups in multiferroics research, with colleagues from Japan (external pageRIKEN, University of Tokyo) and France (external pageIMMM, Le Mans University) achieved for the first-time the transfer of a domain pattern between magnetization and electric-polarization space. This quasi-instantaneous and reversible process differentiates from a mere duplication as it erases the information at the source simultaneous with its recreation at the target. In other words, a stored information can be transferred or translated between magnetic and electric space at will.

Magnetoelectric domain transfer.
Magnetoelectric domain transfer. The application of a magnetic field translates a magnetic domain pattern into a ferroelectric pattern, while simultaneously erasing it in the magnetic state. An electric field reverses the process. The process is mediated by a hidden magnetization- and polarization-free order that acts as memory buffer for the information transfer.

The researchers also provided the general requirements for such a magnetoelectric transfer. Key is a hidden third state that carries neither a measurable magnetization nor an electric polarization. This hidden state acts as memory buffer and protects the information during the translation.

In terms of applications, the magnetoelectric transfer of a domain pattern opens up perspectives for low-energy information processing, but also to hide or protect information against stray fields or unwanted eyes.

Ehsan Hassanpour, Yannik Zemp, Yusuke Tokunaga, Yasujiro Taguchi, Yoshinori Tokura, Thomas Lottermoser, Manfred Fiebig, Mads C. Weber: Magnetoelectric transfer of a domain pattern, Science 377, 1109 (2022). external pagehttps://doi.org/10.1126/science.abm3058

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