Frederik Laust Durhuus scite author profile

We present a plane wave implementation of the magnetic force theorem, which provides a ﬁrst principles framework for extracting exchange constants parameterizing a classical Heisenberg model description of magnetic materials. It is shown that the full microscopic exchange tensor may be expressed in terms of the static Kohn-Sham susceptibility tensor and the exchange-correlation magnetic ﬁeld. This formulation allows one to deﬁne arbitrary magnetic sites localized to predeﬁned spatial regions, hence rendering the problem of ﬁnding Heisenberg parameters independent of any orbital decomposition of the problem. The susceptibility is calculated in a plane wave basis, which allows for systematic convergence with respect to unoccupied bands and spatial representation. We then apply the method to the well-studied problem of calculating adiabatic spin wave spectra for bulk Fe, Co and Ni, ﬁnding good agreement with previous calculations. In particular, we utilize the freedom of deﬁning magnetic sites to show that the calculated Heisenberg parameters are robust towards changes in the deﬁnition of magnetic sites. This demonstrates that the magnetic sites can be regarded as well deﬁned and thus asserts the relevance of the Heisenberg model description despite the itinerant nature of the magnetic state.

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IPT2019-Problem 1-Tesla Coil Engine (DTU, Denmark)

Durhuus¹

2020

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Frederik Laust Durhuus

Simulated clustering dynamics of colloidal magnetic nanoparticles

Plane wave implementation of the magnetic force theorem for magnetic exchange constants: application to bulk Fe, Co and Ni

IPT2019-Problem 1-Tesla Coil Engine (DTU, Denmark)

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