Equivalent Circuit for Magnetoelectric Read and Write Operations

Abstract

We describe an equivalent circuit model applicable to a wide variety of magnetoelectric phenomena and use SPICE simulations to benchmark this model against experimental data. We use this model to suggest a different mode of operation where the "1" and "0'" states are not represented by states with net magnetization (like mx, my or mz) but by different easy axes, quantitatively described by (mx2 - my2) which switches from "0" to "1" through the write voltage. This change is directly detected as a read signal through the inverse effect. The use of (mx2 - my2) to represent a bit is a radical departure from the standard convention of using the magnetization (m) to represent information. We then show how the equivalent circuit can be used to build a device exhibiting tunable randomness and suggest possibilities for extending it to non-volatile memory with read and write capabilities, without the use of external magnetic fields or magnetic tunnel junctions.