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Unconventional magnetism mediated by spin-phonon-photon coupling

Petros Andreas Pantazopoulos (), Johannes Feist (), Francisco J. García-Vidal () and Akashdeep Kamra ()
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Petros Andreas Pantazopoulos: Universidad Autónoma de Madrid
Johannes Feist: Universidad Autónoma de Madrid
Francisco J. García-Vidal: Universidad Autónoma de Madrid
Akashdeep Kamra: Universidad Autónoma de Madrid

Nature Communications, 2024, vol. 15, issue 1, 1-7

Abstract: Abstract Magnetic order typically emerges due to the short-range exchange interaction between the constituent electronic spins. Recent discoveries have found a crucial role for spin-phonon coupling in various phenomena from optical ultrafast magnetization switching to dynamical control of the magnetic state. Here, we demonstrate theoretically the emergence of a biquadratic long-range interaction between spins mediated by their coupling to phonons hybridized with vacuum photons into polaritons. The resulting ordered state enabled by the exchange of virtual polaritons between spins is reminiscent of superconductivity mediated by the exchange of virtual phonons. The biquadratic nature of the spin-spin interaction promotes ordering without favoring ferro- or antiferromagnetism. It further makes the phase transition to magnetic order a first-order transition, unlike in conventional magnets. Consequently, a large magnetization develops abruptly on lowering the temperature which could enable magnetic memories admitting ultralow-power thermally-assisted writing while maintaining a high data stability. The role of photons in the phenomenon further enables an in-situ static control over the magnetism. These unique features make our predicted spin-spin interaction and magnetism highly unconventional paving the way for novel scientific and technological opportunities.

Date: 2024
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DOI: 10.1038/s41467-024-48404-z

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