Realization Of Artificial Magnetic Skyrmions At Room Temperature
This invention has several key features which make it an excellent candidate for research and industrial uses: The quantum states associated with magnetic skyrmions are topologically protected, offering new mechanisms for information storage and sensing Manipulation of such magnetic skyrmions is expected to require extremely low energy, orders of magnitude smaller than counterparts in current technology The artificial magnetic skyrmions are realized at room temperature The skyrmion state is stable in the absence of any magnetic field The invention uses commonly available materials Nanofabrication and processing of the materials are easily adaptable to other material systems The use of a magnetic field sequence to define the skyrmions is easily adaptable to other systems
The invention has a myriad of potential uses, including: Extremely energy efficient information storage using artificial magnetic skyrmions Low dissipation skyrmion-based non-volatile magnetic memory Low dissipation skyrmion-based magnetic logic devices Skyrmion-based magnetic sensors
The recently discovered magnetic skyrmions have sparked intense interest in condensed matter physics and materials science. The unique spin texture in magnetic skyrmions leads to a host of fascinating phenomena due to the topologically protected quantum state and emergent electromagnetic field, offering great potential for novel concepts in low dissipation magnetic information storage, or skyrmionics. To date, vast majority of the magnetic skyrmion phases have been limited to low temperatures and finite magnetic fields. However, for systematic studies of the unique properties and the technological exploitation of magnetic skyrmions it is critical to achieve them in the ground state at ambient conditions. Researchers at the University of California have overcome these challenges and invented novel methods to achieve artificial skyrmion lattices with a stable ground state at room temperature. The approach involves proper choices of materials, structures, and surface modification via ion irradiation, as well as a suitable magnetic field sequence to achieve stable artificial magnetic skyrmion lattices at room temperature and in the absence of any magnetic field. These skyrmions offer a convenient and powerful platform to explore their physical properties. The invention also includes device concepts to utilize such artificial skyrmions towards low dissipation information storage and magnetic sensing
Related Materials Realization of ground-state artificial skyrmion lattices at room temperature Additional Technologies by these Inventors Tech ID/UC Case 25316/2015-874-0 Related Cases 2015-874-0
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