Reversible writing/deleting of magnetic skyrmions through hydrogen adsorption/desorption.
Gong ChenColin OphusAlberto QuintanaHeeyoung KwonChangyeon WonHaifeng DingYizheng WuAndreas K SchmidKai LiuPublished in: Nature communications (2022)
Magnetic skyrmions are topologically nontrivial spin textures with envisioned applications in energy-efficient magnetic information storage. Toggling the presence of magnetic skyrmions via writing/deleting processes is essential for spintronics applications, which usually require the application of a magnetic field, a gate voltage or an electric current. Here we demonstrate the reversible field-free writing/deleting of skyrmions at room temperature, via hydrogen chemisorption/desorption on the surface of Ni and Co films. Supported by Monte-Carlo simulations, the skyrmion creation/annihilation is attributed to the hydrogen-induced magnetic anisotropy change on ferromagnetic surfaces. We also demonstrate the role of hydrogen and oxygen on magnetic anisotropy and skyrmion deletion on other magnetic surfaces. Our results open up new possibilities for designing skyrmionic and magneto-ionic devices.
Keyphrases
- room temperature
- molecularly imprinted
- monte carlo
- escherichia coli
- healthcare
- minimally invasive
- biofilm formation
- mass spectrometry
- health information
- endothelial cells
- solid phase extraction
- staphylococcus aureus
- visible light
- cystic fibrosis
- high glucose
- single molecule
- candida albicans
- simultaneous determination
- metal organic framework