| Jul 28, 2025 |
Stable skyrmion bags created in thin ferromagnetic filmsResearchers demonstrate a robust method to generate skyrmion bags as complex magnetic spin textures in thin ferromagnetic films for advanced spintronic control. Skyrmion bags are donut-like, topologically rich spin textures that go beyond the widely studied single skyrmions.(Nanowerk News) Magnetic skyrmions are nanometer-sized, stable magnetization vortices with promising applications in spintronics and data storage. Their simplest forms have been explored extensively and take on a circular shape where the spins rotate by 180° from the outside to the inside in a thin magnetic film. The spins in the center of the skyrmion, therefore, point to the opposite direction to those outside the skyrmion. |
| More intricate configurations include the so-called skyrmionium where the spins rotate by 360° and the spins in the skyrmionium’s center have the same orientation as those outside, resulting in a ring-like structure. Remarkably, this ring can then be filled with skyrmions again, leading to the target skyrmion for one skyrmion inside the ring and skyrmion bags for multiple skyrmions inside. |
| While theory has already predicted such higher-order configurations, they have remained difficult to produce in real materials in a controlled way. |
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| X-ray microscopy images of the magnetization textures showing the different orders of skyrmions bags, ranging from the empty skyrmionium to a bag filled with four skyrmions. The scale bar is 500 nm. (Image: MBI) |
| In a new study published in Advanced Materials ("Controlled Formation of Skyrmion Bags"), the research team demonstrates how nanoscale modifications of the magnetic properties of the material, introduced via focused helium-ion beams, can foster the generation of these higher-order textures. These local anisotropy modifications are designed such that the desired structures can be formed selectively using single ultrafast laser pulses. |
| The resulting magnetic textures with features on the sub-100-nm scale were directly imaged using a high-resolution X-ray microscope equipped with a tailored laser system developed at the Max Born Institute. The researchers demonstrate the generation of a variety of skyrmion bags, from the empty skyrmionium up to bags filled with four skyrmions. They showed that the skyrmion-bag generation triggered by single laser pulses has significantly higher success rate compared to a purely magnetic-field-driven approach. The repeatable, consistent generation of such textures is the key prerequisite for studying the dynamics of higher-order skyrmions in future time-resolved experiments. |
| This work offers a practical route to investigate and utilize complex skyrmion states in thin-film materials, which is an important step towards future spintronic devices that leverage topological control at the nanoscale. |
| Source: Max Born Institute (Note: Content may be edited for style and length) |
