Imagine a world where we can control the magnetic order of materials with precision and create unique spin textures. This is the exciting realm of atomically thin antiferromagnets, and we're about to dive into a groundbreaking concept: lateral exchange bias. Picture this: a thin layer of material with a unique magnetic order, and we want to manipulate it with pinpoint accuracy. But here's where it gets controversial: current methods fall short, unable to provide the local control needed for complex spin textures. That's where lateral exchange bias steps in, offering a novel approach to control the order parameter and spin textures in atomically thin antiferromagnets. And this is the part most people miss: the power of lateral exchange bias lies in its ability to overcome limitations and provide a new tool for Néel-vector control. We're talking about a game-changer for vdW spintronics, a field that's all about harnessing the unique properties of atomically thin materials for next-generation technologies. So, get ready to explore the fascinating world of lateral exchange bias and its potential to revolutionize the way we manipulate magnetic order.
