Class of exactly solvable SO(n) symmetric spin chains with matrix
  product ground states

A. B. Zamolodchikov; F. D. M. Haldane; G. V. Uimin; Guang-Ming Zhang; H. Georgi; H. M. Babujian; Hong-Hao Tu; L. A. Takhatajan; L. D. Faddeev; P. M. van den Broek; Tao Xiang

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Class of exactly solvable SO(n) symmetric spin chains with matrix product ground states

Authors: A. B. Zamolodchikov
F. D. M. Haldane
G. V. Uimin
Guang-Ming Zhang
H. Georgi
H. M. Babujian
Hong-Hao Tu
L. A. Takhatajan
L. D. Faddeev
P. M. van den Broek
Tao Xiang
Publication date: 1 January 2008
Publisher: 'American Physical Society (APS)'
Doi

Abstract

We introduce a class of exactly solvable SO(n) symmetric Hamiltonians with matrix product ground states. For an odd

n\geq 3

case, the ground state is a translational invariant Haldane gap spin liquid state; while for an even

n\geq 4

case, the ground state is a spontaneously dimerized state with twofold degeneracy. In the matrix product ground states for both cases, we identify a hidden antiferromagnetic order, which is characterized by nonlocal string order parameters. The ground-state phase diagram of a generalized SO(n) symmetric bilinear-biquadratic model is discussed.Comment: 11 pages, 5 figure

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