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This invention is a magnetic tunneling junction (MTJ) design to realize more efficient switching. This design includes the use of an antiferromagnetic layer.
About
Energy Efficient Switching In Magnetic Tunnel Junctions With An Antiferromagnetic Barrier Tech ID: UA19-138 Invention: This invention is a magnetic tunneling junction (MTJ) design to realize more efficient switching. This design includes the use of an antiferromagnetic layer. Background: Spintronics represents a promising solution to address the problem of greatly increased power consumption in CMOS transistors for memory and logic applications. Storing information as spin, instead of charge, spintronics offers a unique route to eliminate energy waste in the stand-by state. A large part of the present spintronics research focuses on reducing the dynamic power consumption and increasing the on/off ratio (magnetoresistance) in various structures. Magnetic tunnel junctions (MTJs) have been arguably the most important building blocks in spintronic technology. There is a need for advanced MTJs that dramatically reduce switching energy while maintaining a reasonably high tunneling magnetoresistance and strong thermal stability at room temperature.
Key Benefits
Energy efficient MTJ switching for spintronics computing
Applications
Magnetic hard disk drives Random access memories Spin logic cell Sensors Microwave oscillators Amplifiers