Article Highlight | 6-Nov-2024

KRISS paves the way for room-temperature 2D topological spin structure technology

World’s first generation and control of skyrmions at room temperature in a 2D materials

National Research Council of Science & Technology

The Korea Research Institute of Standards and Science (KRISS) has, for the first time in the world, generated and controlled skyrmions at room temperature in a two-dimensional (2D) materials. This achievement reduces power consumption compared to traditional three-dimensional (3D) systems while maximizing quantum effects, making it a core technology for the development of room-temperature quantum computers and AI semiconductors.

A skyrmion is a spin structure arranged in a vortex shape, theoretically reducible to just a few nanometers and capable of moving with very low power. If skyrmions can be freely created and manipulated in reality, it would enable the development of next-generation devices with ultra-low power consumption and high performance. As such, research is being actively conducted in this field.

While previous skyrmion applications have only been explored in 3D magnets, the first report of 2D magnets in 2017 broadened research to include 2D materials.

The advantage of 2D over 3D lies in a smoother surface, akin to ice, which reduces friction (heat) and noise when operating skyrmions, allowing for stable operation with lower power consumption. In addition, skyrmions in 2D are smaller than those in 3D, enhancing quantum phenomena.

KRISS succeeded in generating and controlling skyrmions in 2D magnets at room temperature. By applying a very fine voltage and magnetic field to the surface of the magnet, skyrmions were created and then driven in the desired direction with a current. 

The experimental results showed that the power consumption for controlling skyrmions in 2D was approximately 1/1000 of that in 3D, and their size was reduced by more than ten-fold, providing significant advantages in terms of stability and speed. Although room-temperature skyrmion Creation in 2D has been reported by the US and China at around the same time, KRISS is the first to succeed in both formation and electrical control.

This success comes about a year after the research team developed a 3D skyrmion transistor last February, advancing the development of next-generation spintronic devices. Notably, this technology maximizes the quantum effects of skyrmions at room temperature. This in turn suggested the potential for realizing room-temperature qubits using skyrmions, thereby addressing some of the limitations of existing quantum computers that operate only in ultra-low temperature environments.

Seungmo Yang, the Senior Research Scientist from the KRISS Quantum Magnetic Sensing Group said, “With the recent advances in AI, the demand for ultra-low power semiconductor devices is increasing. Our skyrmion control technology can contribute to the design of next-generation AI semiconductor devices.”

 

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As a national metrology institute (NMI) of Korea founded in 1975, KRISS (Korea Research Institute of Standards and Science) has developed measurement standards technology and played a pivotal role in upgrading Korea’s main industries to the global level.

This research, supported by the Ministry of Science and ICT’s Nano and Material Technology Development Project, was a collaborative effort involving the KRISS Quantum Technology Institute's Quantum Magnetic Sensing Group, Professor Kab-Jin Kim’s research team at KAIST, Professor Changgu Lee’s research team at Sungkyunkwan University, and Dr. Mi-Young Im from Lawrence Berkeley National Laboratory (LBNL). The results were published in the renowned journal Advanced Materials (IF: 29.4) last May.

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