TL;DR
This paper predicts a near-field thermal Hall effect in magneto-optical particle networks, where magnetic field-induced symmetry breaking creates preferential heat transport channels due to particle anisotropy.
Contribution
It introduces the concept of a near-field thermal Hall effect in many-body magneto-optical systems, highlighting the role of magnetic field and anisotropy in heat transport.
Findings
Prediction of a near-field thermal Hall effect in magneto-optical particle networks
Identification of symmetry breaking as the mechanism for the effect
Demonstration of anisotropy tuning to control heat flow
Abstract
A near-field thermal Hall effect (i.e.Righi-Leduc effect) in networks of magneto-optical particles placed in a constant magnetic field is predicted. This many-body effect is related to a symmetry breaking in the system induced by the magnetic field which gives rise to preferential channels for the heat-transport by near-field interaction thanks to the particles anisotropy tuning.
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