Haldane-gap excitations in the low-H_c 1-dimensional quantum
  antiferromagnet NDMAP

A. Zheludev; C. L. Broholm; E.S. Sorensen; F.D.M. Haldane; F.D.M. Haldane; G. Xu; G. Xu; I. Affleck; I.A. Zaliznyak; J. Darriet; J.F. DiTusa; K. Katsumata; K. Katsumata; L.P. Regnault; L.P. Regnault; M. Chiba; M. Enderle; M. Monfort; O. Golinelli; P.P. Mitra; R.M. Morra; S. Ma; S. Maslov; S.V. Meshkov; T. Sakai; T. Sakai; T. Yokoo; Y. Chen; Z. Honda; Z. Honda; Z. Honda

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Haldane-gap excitations in the low-H_c 1-dimensional quantum antiferromagnet NDMAP

Authors: A. Zheludev
C. L. Broholm
E.S. Sorensen
F.D.M. Haldane
F.D.M. Haldane
G. Xu
G. Xu
I. Affleck
I.A. Zaliznyak
J. Darriet
J.F. DiTusa
K. Katsumata
K. Katsumata
L.P. Regnault
L.P. Regnault
M. Chiba
M. Enderle
M. Monfort
O. Golinelli
P.P. Mitra
R.M. Morra
S. Ma
S. Maslov
S.V. Meshkov
T. Sakai
T. Sakai
T. Yokoo
Y. Chen
Z. Honda
Z. Honda
Z. Honda
Publication date: 13 March 2000
Publisher: 'American Physical Society (APS)'
Doi

Abstract

Inelastic neutron scattering on deuterated single-crystal samples is used to study Haldane-gap excitations in the new S=1 one-dimensional quantum antiferromagnet NDMAP, that was recently recognized as an ideal model system for high-field studies. The Haldane gap energies

\Delta_x=0.42

meV,

\Delta_y=0.52

meV and

\Delta_z=1.86

meV, for excitations polarized along the a, b, and c crystallographic axes, respectively, are directly measured. The dispersion perpendicular to the chain axis c is studied, and extremely weak inter-chain coupling constants

J_y=1.8\cdot 10^{-3}

meV and

J_x=3.5\cdot 10^{-4}

meV, along the a and b axes, respectively, are determined. The results are discussed in the context of future experiments in high magnetic fields.Comment: 5 pages, 4 figures, submitted to Phys. Rev.

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