2018
DOI: 10.1103/physrevb.97.125132
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Reliability and applicability of magnetic-force linear response theory: Numerical parameters, predictability, and orbital resolution

Abstract: We investigated the reliability and applicability of so-called magnetic force linear response method to calculate spin-spin interaction strengths from first-principles. We examined the dependence on the numerical parameters including the number of basis orbitals and their cutoff radii within nonorthogonal LCPAO (linear combination of pseudo-atomic orbitals) formalism. It is shown that the parameter dependence and the ambiguity caused by these choices are small enough in comparison to the other computation appr… Show more

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Cited by 36 publications
(35 citation statements)
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“…The exchange parameters J Fe-Fe ij and J Fe-Nd ij in Eq. 1 are evaluated in the relaxed unit cell (lattice parameters are kept constant as a = b = 8.76Å, c = 12.13Å and the thermal expansion is not considered) by using OpenMX [37][38][39][40]. The calculation of Heisenberg exchange parameters J ij between two different atomic sites i and j is implemented in OpenMX by using the magnetic-force theorem (follow the original formalism by Liechtenstein et al [37]) and its extension to the nonorthogonal LCPAO (linear combination of pseudoatomic orbitals) method [38].…”
Section: The Constant Term In H Cfmentioning
confidence: 99%
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“…The exchange parameters J Fe-Fe ij and J Fe-Nd ij in Eq. 1 are evaluated in the relaxed unit cell (lattice parameters are kept constant as a = b = 8.76Å, c = 12.13Å and the thermal expansion is not considered) by using OpenMX [37][38][39][40]. The calculation of Heisenberg exchange parameters J ij between two different atomic sites i and j is implemented in OpenMX by using the magnetic-force theorem (follow the original formalism by Liechtenstein et al [37]) and its extension to the nonorthogonal LCPAO (linear combination of pseudoatomic orbitals) method [38].…”
Section: The Constant Term In H Cfmentioning
confidence: 99%
“…The calculation of Heisenberg exchange parameters J ij between two different atomic sites i and j is implemented in OpenMX by using the magnetic-force theorem (follow the original formalism by Liechtenstein et al [37]) and its extension to the nonorthogonal LCPAO (linear combination of pseudoatomic orbitals) method [38]. In detail, J ij is estimated as a response to small spin tiltings (as a perturbation) from the given converged solution, as shown the detailed formulation in [37][38][39]. More application examples of OpenMX in calculating Heisenberg exchange parameters are reported by the OpenMX's developers in the literature [38][39][40][41].…”
Section: The Constant Term In H Cfmentioning
confidence: 99%
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“…We performed MFT (magnetic force theory) calculations [32,33] to obtain magnetic exchange couplings on top of DFT electronic structures obtained from OpenMX software package [26,27]. The calculations were carried out using our recently-developed MFT code [34,35]. We adopted the most stable G-type AFM order as the input for our MFT calculations.…”
mentioning
confidence: 99%
“…In order to meet this challenge, here we introduce a new approach. First we employ so-called 'magnetic force response theory (MFT)' [24][25][26][27][28][29] for calculating magnetic interactions.…”
Section: Introductionmentioning
confidence: 99%