Spin chirality on a two-dimensional frustrated lattice

A Chubukov; AB Harris; AP Ramirez; AS Wills; AS Wills; BO Wells; D Grohol; Daniel G. Nocera; Daniel Grohol; DG Nocera; H Kawamura; I Ritchey; J von Delft; Jeffrey W. Lynn; Jin-Hyung Cho; JN Reimers; JT Chalker; K Ohgushi; Kittiwit Matan; M Elhajal; M Nishiyama; N Mermin; P Calabrese; S Sachdev; Seung-Hun Lee; SH Lee; ST Bramwell; T Inami; T Moriya; T Thio; T Yildirim; TE Mason; VP Plakhty; XG Wen; Y Taguchi; Young S. Lee

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Spin chirality on a two-dimensional frustrated lattice

Authors: A Chubukov
AB Harris
AP Ramirez
AS Wills
AS Wills
BO Wells
D Grohol
Daniel G. Nocera
Daniel Grohol
DG Nocera
H Kawamura
I Ritchey
J von Delft
Jeffrey W. Lynn
Jin-Hyung Cho
JN Reimers
JT Chalker
K Ohgushi
Kittiwit Matan
M Elhajal
M Nishiyama
N Mermin
P Calabrese
S Sachdev
Seung-Hun Lee
SH Lee
ST Bramwell
T Inami
T Moriya
T Thio
T Yildirim
TE Mason
VP Plakhty
XG Wen
Y Taguchi
Young S. Lee
Publication date: 5 April 2005
Publisher: 'Springer Science and Business Media LLC'
Doi

Abstract

The collective behavior of interacting magnetic moments can be strongly influenced by the topology of the underlying lattice. In geometrically frustrated spin systems, interesting chiral correlations may develop that are related to the spin arrangement on triangular plaquettes. We report a study of the spin chirality on a two-dimensional geometrically frustrated lattice. Our new chemical synthesis methods allow us to produce large single crystal samples of KFe3(OH)6(SO4)2, an ideal Kagome lattice antiferromagnet. Combined thermodynamic and neutron scattering measurements reveal that the phase transition to the ordered ground-state is unusual. At low temperatures, application of a magnetic field induces a transition between states with different non-trivial spin-textures.Comment: 7 pages, 4 figure

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