Please use this identifier to cite or link to this item: https://apo.ansto.gov.au/dspace/handle/10238/10522
Title: Striped magnetic ground state of the kagome lattice in Fe4Si2Sn7O16
Authors: Ling, CD
Allison, MC
Schmid, S
Avdeev, M
Gardner, JS
Wang, CW
Ryan, DH
Zbiri, M
Söhnel, T
Keywords: Antiferromagnetism
Phase transformations
Neutron diffraction
Crystal lattices
Pyrochlore
Spectroscopy
Issue Date: 15-Nov-2017
Publisher: American Physical Society
Citation: Ling, C. D., Allison, M. C., Schmid, S., Avdeev, M., Gardner, J. S., Wang, C.- W., Ryan, D. H., Zbiri, M., & Söhnel, T. (2017). Striped magnetic ground state of the kagome lattice in Fe4Si2Sn7O16. Physical Review B, 96(18), 180410. doi:10.1103/PhysRevB.96.180410
Abstract: We have experimentally identified a different magnetic ground state for the kagome lattice, in the perfectly hexagonal Fe2+ (3d6,S=2) compound Fe4Si2Sn7O16. A representational symmetry analysis of neutron diffraction data shows that below TN=3.5 K, the spins on 23 of the magnetic ions order into canted antiferromagnetic chains, separated by the remaining 13 which are geometrically frustrated and show no long-range order down to at least T=0.1 K. Mössbauer spectroscopy confirms that there is no static order on the latter 13 of the magnetic ions—i.e., they are in a liquidlike rather than a frozen state—down to at least 1.65 K. A heavily Mn-doped sample Fe1.45Mn2.55Si2Sn7O16 has the same magnetic structure. Although the propagation vector q=(0,12,12) breaks hexagonal symmetry, we see no evidence for magnetostriction in the form of a lattice distortion within the resolution of our data. We discuss the relationship to partially frustrated magnetic order on the pyrochlore lattice of Gd2Ti2O7, and to theoretical models that predict symmetry breaking ground states for perfect kagome lattices. ©2017 American Physical Society
URI: https://doi.org/10.1103/PhysRevB.96.180410
https://apo.ansto.gov.au/dspace/handle/10238/10522
ISSN: 2469-9969
Appears in Collections:Journal Articles

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