On the micromagnetic behavior of dipolar-coupled nanomagnets in defective square artificial spin ice systems

Abstract

We report here the results of micromagnetic simulations of square artificial spin ice (ASI) systems with defects. The defects are introduced by the misaligning of a nanomagnet at the vertex. In these defective systems, we are able to stabilize emergent monopolelike state by applying a small external field. We observe a systematic change of dipolar energies of the systems with varying misalignment angle. The fields at which the emergent monopoles are created vary linearly with the dipolar energies of the systems. Our results clearly show that the magnetization reversal of the ASI systems is intricately related to the interplay of defects and dipolar interactions.