Ballistic magnon heat conduction and possible Poiseuille flow in the helimagnetic insulator Cu$_2$OSeO$_3$

A. Akopyan; B. A. Trump; G. G. Marcus; J. L. Cohn; N. Prasai; S. X. Huang; T. M. McQueen

arxiv: 1705.06328 · v2 · pith:N6QDMWFCnew · submitted 2017-05-17 · ❄️ cond-mat.str-el

Ballistic magnon heat conduction and possible Poiseuille flow in the helimagnetic insulator Cu₂OSeO₃

N. Prasai , B. A. Trump , G. G. Marcus , A. Akopyan , S. X. Huang , T. M. McQueen , J. L. Cohn This is my paper

classification ❄️ cond-mat.str-el

keywords magnonoseoballisticexceedingflowhelimagneticinsulatormagnons

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We report on the observation of magnon thermal conductivity $\kappa_m\sim$ 70 W/mK near 5 K in the helimagnetic insulator Cu$_2$OSeO$_3$, exceeding that measured in any other ferromagnet by almost two orders of magnitude. Ballistic, boundary-limited transport for both magnons and phonons is established below 1 K, and Poiseuille flow of magnons is proposed to explain a magnon mean-free path substantially exceeding the specimen width for the least defective specimens in the range 2 K $<T<$ 10 K. These observations establish Cu$_2$OSeO$_3$ as a model system for studying long-wavelength magnon dynamics.

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Ballistic magnon heat conduction and possible Poiseuille flow in the helimagnetic insulator Cu₂OSeO₃

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