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Title: Magnetic transitions in the chiral armchair-kagome system Mn2Sb2O7
Authors: Peets, DC
Sim, H
Choi, S
Avdeev, M
Lee, S
Kim, SJ
Kang, H
Ahn, D
Park, JG
Keywords: Neutron diffraction
X-ray diffraction
Phase transformations
Crystal structure
Specific heat
Issue Date: 20-Jan-2017
Publisher: American Physical Society
Citation: Peets, D. C., Sim, H., Choi, S., Avdeev, M., Lee, S., Kim, S. J., Kang, H., Ahn, D., & Park, J.-G. (2017). Physical Review B, 95(1), 014424. doi:10.1103/PhysRevB.95.014424
Abstract: The competition between interactions in frustrated magnets allows a wide variety of new ground states, often exhibiting emergent physics and unique excitations. Expanding the suite of lattices available for study enhances our chances of finding exotic physics. Mn2Sb2O7 forms in a chiral, kagome-based structure in which a fourth member is added to the kagome-plane triangles to form an armchair unit and link adjacent kagome planes. This structural motif may be viewed as intermediate between the triangles of the kagome network and the tetrahedra in the pyrochlore lattice. Mn2Sb2O7 exhibits two distinct magnetic phase transitions, at 11.1 and 14.2 K, at least one of which has a weak ferromagnetic component. The magnetic propagation vector does not change through the lower transition, suggesting a metamagnetic transition or a transition involving a multicomponent order parameter. Although previously reported in the P3121 space group, Mn2Sb2O7 actually crystallizes in P2, which allows ferroelectricity, and we show clear evidence of magnetoelectric coupling indicative of multiferroic order. The quasi-two-dimensional “armchair-kagome” lattice presents a promising platform for probing chiral magnetism and the effect of dimensionality in highly frustrated systems. ©2017 American Physical Society
ISSN: 2469-9969
Appears in Collections:Journal Articles

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