Giant magnon spin wave conductance in ultrathin insulators surprises researchers

Bart van Wees
Xiangyang Wei

Fysica van Nano Devices

Pers / media: Expert Comment › Popular

Description

When you make conducting wires thinner, their electrical resistance goes up. This is Ohm's law, and it is generally right. An important exception is at very low temperatures, where the mobility of electrons increases when wires become so thin that they are effectively two-dimensional. Now, University of Groningen physicists, together with colleagues at Brest University have observed that something similar happens with the conductivity of magnons, spin waves that travel through magnetic insulators, much like a wave through a stadium. The increase in conductivity was spectacular, and occurred at ambient room temperature. This observation was published in Nature Materials

Periode	23-sep.-2022

Media-aandacht

Titel	Giant magnon spin wave conductance in ultrathin insulators surprises researchers
Mate van erkenning	International
Media naam/outlet	Phys.org
Mediatype	Web
Land/Regio	Netherlands
Release datum	23/09/2022
Beschrijving	When you make conducting wires thinner, their electrical resistance goes up. This is Ohm's law, and it is generally right. An important exception is at very low temperatures, where the mobility of electrons increases when wires become so thin that they are effectively two-dimensional. Now, University of Groningen physicists, together with colleagues at Brest University have observed that something similar happens with the conductivity of magnons, spin waves that travel through magnetic insulators, much like a wave through a stadium. The increase in conductivity was spectacular, and occurred at ambient room temperature. This observation was published in Nature Materials
URL	https://phys.org/news/2022-09-giant-magnon-ultrathin-insulators.html
Personen	Bart van Wees, Xiangyang Wei

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