2016
DOI: 10.1007/s10948-016-3892-5
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Frustrated Antiferromagnetic Spin Chains of Edge-Sharing Tetrahedra in Volcanic Minerals K3Cu3(Fe0.82Al0.18)O2(SO4)4 and K4Cu4O2(SO4)4MeCl

Abstract: The calculation of the sign and strength of magnetic interactions in two noncentrosymmetric minerals (klyuchevskite, K3Cu3(Fe0.82Al0.18)O2(SO4)4 and piipite, K4Cu4O2(SO4)4Cu0.5Cl) has been performed based on the structural data. As seen from the calculation results, both minerals comprise quasi-one-dimensional frustrated antiferromagnets. They contain frustrated spin chains from edge-sharing Cu4 tetrahedra with strong antiferromagnetic couplings within chains and very weak ones between chains. Strong frustrati… Show more

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Cited by 11 publications
(10 citation statements)
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“…Oxocentered copper OCu 4 tetrahedra forming the basis the crystal structure serve as a platform for geometric frustration of the magnetic system of not only kamchatkite, but also many minerals of Kamchatka Tolbachik volcanos. As we demonstrated in [Volkova and Marinin, 2017], the uniqueness of these systems consisted in the fact that the antiferromagnetic character of couplings along the tetrahedron edges and, therefore, frustration of exchange interactions on triangular faces were caused mainly by oxygen ions centering copper tetrahedra. This oxygen ion is an intermediate one simultaneously in all six couplings along the tetrahedron edges and makes a substantial contribution to formation of the AFM character of these couplings.…”
Section: Discussionmentioning
confidence: 92%
“…Oxocentered copper OCu 4 tetrahedra forming the basis the crystal structure serve as a platform for geometric frustration of the magnetic system of not only kamchatkite, but also many minerals of Kamchatka Tolbachik volcanos. As we demonstrated in [Volkova and Marinin, 2017], the uniqueness of these systems consisted in the fact that the antiferromagnetic character of couplings along the tetrahedron edges and, therefore, frustration of exchange interactions on triangular faces were caused mainly by oxygen ions centering copper tetrahedra. This oxygen ion is an intermediate one simultaneously in all six couplings along the tetrahedron edges and makes a substantial contribution to formation of the AFM character of these couplings.…”
Section: Discussionmentioning
confidence: 92%
“…Oxocentered structural motifs with Cu 2+ vertices have recently been reported to be responsible for a number of unusual magnetic properties (Fujihala et al, 2017;Badrtdinov et al, 2018;Volkova & Marinin, 2017). Different kagome-netderived Cu 2+ substructures (Fig.…”
Section: Cupboxo-1 and [Cu 2+mentioning
confidence: 99%
“…Provided that appropriate distances and suitable exchange pathways between the S = 1 2 Cu 2+ cations, low temperatures and perhaps certain requirements for crystal purity are given, the tetrahedra and triangles observed in the structures of the second group allow for the occurrence of geometrically frustrated magnetic systems with a variety of unusual features, see e.g. Fujihala et al (2017), Volkova & Marinin (2017), Shores et al (2005). Corresponding experiments have not been performed yet and are beyond the scope of the present study.…”
Section: Cupboxo-1 and [Cu 2+mentioning
confidence: 99%
“…Oxysalts with mineral-like structures containing 'additional' oxygen atoms and OH groups that can be described in terms of anion-centered tetrahedra (Krivovichev & Filatov, 2001;Krivovichev, Mentré et al, 2013) as having anion-centered [(OH)Me 3 ] triangles and [OMe 4 ] tetrahedra (Me = Cu, Ni, Fe, Zn etc.) attract interest due to their magnetic properties controlled by the local structure of the oxygen-based copper polycations (Aksenov et al, 2017;Yamnova et al, 2017;Volkova & Marinin, 2017, 2018a.…”
Section: Introductionmentioning
confidence: 99%