Manipulating Magnets at the Atomic Scale for Fast and Energy-Efficient Future Data Processing
Runaway1956 writes:
The ever-growing demand for efficient magnetic data processing calls for novel means to manipulate the magnetic state and manipulating the exchange interaction would be the most efficient and ultimately fastest way to control magnetism.
To achieve this result, the researchers used the fastest and the strongest stimulus available: ultrashort laser pulse excitation. They used light to optically stimulate specific atomic vibrations of the magnet's crystal lattice which extensively disturbed and distorted the structure of the material.
The results of this study are published in the prestigious journal Nature Materials by the international team from Lancaster, Delft, Nijmegen, Liege and Kiev.
[...] This all occurs within an unprecedentedly short time of less than a few picoseconds (millionth of a millionth of a second). This time is not only orders of magnitude shorter than the recording time in modern computer hard drives, but also exactly matches the fundamental limit for the magnetization switching.
Dr. Rostislav Mikhaylovskiy from Lancaster University explains: "It has long been thought that the control of magnetism by atomic vibrations is restricted to acoustic excitations (sound waves) and cannot be faster than nanoseconds. We have reduced the magnetic switching time by 1000 times that is a major milestone in itself."
Dr. Dmytro Afanasiev from the Technical University of Delft adds: "We believe that our findings will stimulate further research into exploring and understanding the exact mechanisms governing the ultrafast lattice control of the magnetic state."
Journal Reference:
D. Afanasiev, J. R. Hortensius, B. A. Ivanov, et al. Ultrafast control of magnetic interactions via light-driven phonons, Nature Materials (DOI: 10.1038/s41563-021-00922-7)
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