Field-Induced Magnetic Order in Quantum Spin Liquids

A. Honecker; A. Oosawa; A. W. Sandvik; B. C. Watson; B. R. Patyal; G. Chaboussant; G. Chaboussant; H. Mayaffre; I. Affleck; K. Takatsu; M. Tachiki; Maxim Olshanii; N. Cavadini; P. R. Hammar; R. Calemczuk; R. D. Willett; S. Wessel; S. Wessel; Stefan Wessel; Stephan Haas; T. Giamarchi; T. Nikuni; T. Nikuni; V. Bagnato; W. Shiramura; X. Wang

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Field-Induced Magnetic Order in Quantum Spin Liquids

Authors: A. Honecker
A. Oosawa
A. W. Sandvik
B. C. Watson
B. R. Patyal
G. Chaboussant
G. Chaboussant
H. Mayaffre
I. Affleck
K. Takatsu
M. Tachiki
Maxim Olshanii
N. Cavadini
P. R. Hammar
R. Calemczuk
R. D. Willett
S. Wessel
S. Wessel
Stefan Wessel
Stephan Haas
T. Giamarchi
T. Nikuni
T. Nikuni
V. Bagnato
W. Shiramura
X. Wang
Publication date: 1 January 2001
Publisher: 'American Physical Society (APS)'
Doi

Abstract

We study magnetic field-induced three-dimensional ordering transitions in low-dimensional quantum spin liquids, such as weakly coupled, antiferromagnetic spin-1/2 Heisenberg dimers and ladders. Using stochastic series expansion quantum Monte Carlo simulations, thermodynamic response functions are obtained down to ultra-low temperatures. We extract the critical scaling exponents which dictate the power-law dependence of the transition temperature on the applied magnetic field. These are compared with recent experiments on candidate materials and with predictions for the Bose-Einstein condensation of magnons obtained in mean-field theory.Comment: RevTex, 4 pages with 5 figure

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