Magnonic devices run exclusively on spin currents. (Spintronic devices, another electronics alternative, include both charge and spin currents.) To picture a magnon, imagine a row of spins pointing up, representing a magnetic material, and then imagine briefly flipping the spin at one end. This motion leads to a propagating wave that moves through the material as each spin influences its neighbor. Magnons can travel quickly and efficiently over long distances—up to about a centimeter in the best materials—without significantly losing energy or heating up the material, a feat not possible for electrons. But before building fast and efficient magnonic circuits, researchers need components that can regulate magnon currents.
I know I have been repeating this over and over again, but this is another example where basic research in condensed matter/solid state physics is now finding application in modern electronics.
Zz.
1 comment:
And, at the same time, antiferromagnetism is getting some love, and some well-written explanatory articles, in Nature Physics, https://www.nature.com/nphys/volumes/14/issues/3
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