Enhanced Curie temperature and room-temperature 50-nm skyrmions achieved in hexagonal ferromagnet Mn5Ge3.2 synthesized via a high-pressure method

Key Points

• Enhanced Curie temperature improves magnetic stability, allowing for better performance in spintronic devices.
• Room-temperature skyrmions observed at a size of 50 nm, which is significant for future technology.
• Assessment using high-pressure synthesis techniques allows for the modification of material properties.
• Implications for materials science include potential advancements in magnetic storage and quantum computing.