Green's function approach to the magnetic properties of the kagome
  antiferromagnet

A.P. Ramirez; A.P. Ramirez; B. Bernu; B. Canals; B. Canals; B. H. Bernhard; C. Lacroix; C. Zeng; Ch. Waldtmann; Chen Zeng; E.F. Shender; F. Mila; H. Shimahara; I. Watanabe; J. Chalker; J. Kondo; J.N. Reimers; M. Elhajal; M.E. Gouvêa; N. Elstner; P. Lecheminant; P. Leung; P. Schiffer; P. Sindzingre; P.W. Anderson; S.-H. Lee; V. Elser; W. Yu; Y.J. Uemura

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Green's function approach to the magnetic properties of the kagome antiferromagnet

Authors: A.P. Ramirez
A.P. Ramirez
B. Bernu
B. Canals
B. Canals
B. H. Bernhard
C. Lacroix
C. Zeng
Ch. Waldtmann
Chen Zeng
E.F. Shender
F. Mila
H. Shimahara
I. Watanabe
J. Chalker
J. Kondo
J.N. Reimers
M. Elhajal
M.E. Gouvêa
N. Elstner
P. Lecheminant
P. Leung
P. Schiffer
P. Sindzingre
P.W. Anderson
S.-H. Lee
V. Elser
W. Yu
Y.J. Uemura
Publication date: 15 February 2002
Publisher: 'American Physical Society (APS)'
Doi

Abstract

The

S=1/2

Heisenberg antiferromagnet is studied on the kagom\'e lattice by using a Green's function method based on an appropriate decoupling of the equations of motion. Thermodynamic properties as well as spin-spin correlation functions are obtained and characterize this system as a two-dimensional quantum spin liquid. Spin-spin correlation functions decay exponentially with distance down to low temperature and the calculated missing entropy at T=0 is found to be

0.46\ln{2}

. Within the present scheme, the specific heat exhibits a single peak structure and a

T^2

dependence at low temperature.Comment: 6 (two-column revtex4) pages, 5 ps figures. Submitted to Phys. Rev.

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