Critical dynamics of a spin-5/2 2D isotropic antiferromagnet

A. Auerbach; A. Cuccoli; G. M. Wysin; K. R. Thurber; K. Yamada; M. A. Kastner; M. Greven; M. Makivic; N. Elstner; P. C. Hohenberg; P. Hasenfratz; P. Hasenfratz; R. A. Cowley; R. A. Cowley; R. J. Birgeneau; R. J. Birgeneau; R. J. Christianson; R. L. Leheny; R. L. Leheny; R. W. Erwin; S. Chakravarty; S. Fulton; S. M. Hayden; S. Tyc; V. Dohm; Y.S. Lee

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Critical dynamics of a spin-5/2 2D isotropic antiferromagnet

Authors: A. Auerbach
A. Cuccoli
G. M. Wysin
K. R. Thurber
K. Yamada
M. A. Kastner
M. Greven
M. Makivic
N. Elstner
P. C. Hohenberg
P. Hasenfratz
P. Hasenfratz
R. A. Cowley
R. A. Cowley
R. J. Birgeneau
R. J. Birgeneau
R. J. Christianson
R. L. Leheny
R. L. Leheny
R. W. Erwin
S. Chakravarty
S. Fulton
S. M. Hayden
S. Tyc
V. Dohm
Y.S. Lee
Publication date: 8 January 2001
Publisher: 'American Physical Society (APS)'
Doi

Abstract

We report a neutron scattering study of the dynamic spin correlations in Rb

_2

MnF

_4

, a two-dimensional spin-5/2 antiferromagnet. By tuning an external magnetic field to the value for the spin-flop line, we reduce the effective spin anisotropy to essentially zero, thereby obtaining a nearly ideal two-dimensional isotropic antiferromagnet. From the shape of the quasielastic peak as a function of temperature, we demonstrate dynamic scaling for this system and find a value for the dynamical exponent

z

. We compare these results to theoretical predictions for the dynamic behavior of the two-dimensional Heisenberg model, in which deviations from

z=1

provide a measure of the corrections to scaling.Comment: 5 pages, 4 figures. Submitted to Physical Review B, Rapid Communication

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