Fractional and Integer Excitations in Quantum Antiferromagnetic Spin 1/2
  Ladders

A. Mielke; A. W. Sandvik; B. S. Shastry; C. Knetter; C. Knetter; C. Knetter; Ch.-M. Ho; D. G. Shelton; F. J. Wegner; G. Aeppli; G. S. Uhrig; G. S. Uhrig; G. S. Uhrig; G. S. Uhrig; G. S. Uhrig; H. J. Schmidt; I. Affleck; K. Damle; K. P. Schmidt; M. Greven; M. Grüninger; M. Grüninger; M. Karbach; M. Matsuda; M. P. Gelfand; M. Uehara; M. Windt; O. P. Sushkov; P. W. Anderson; R. B. Laughlin; S. Brehmer; S. Sugai; S. Trebst; T. Barnes; V. N. Kotov; W. Zheng; W. Zheng; Y. Honda

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Fractional and Integer Excitations in Quantum Antiferromagnetic Spin 1/2 Ladders

Authors: A. Mielke
A. W. Sandvik
B. S. Shastry
C. Knetter
C. Knetter
C. Knetter
Ch.-M. Ho
D. G. Shelton
F. J. Wegner
G. Aeppli
G. S. Uhrig
G. S. Uhrig
G. S. Uhrig
G. S. Uhrig
G. S. Uhrig
H. J. Schmidt
I. Affleck
K. Damle
K. P. Schmidt
M. Greven
M. Grüninger
M. Grüninger
M. Karbach
M. Matsuda
M. P. Gelfand
M. Uehara
M. Windt
O. P. Sushkov
P. W. Anderson
R. B. Laughlin
S. Brehmer
S. Sugai
S. Trebst
T. Barnes
V. N. Kotov
W. Zheng
W. Zheng
Y. Honda
Publication date: 1 January 2001
Publisher: 'American Physical Society (APS)'
Doi

Abstract

Spectral densities are computed in unprecedented detail for quantum antiferromagnetic spin 1/2 two-leg ladders. These results were obtained due to a major methodical advance achieved by optimally chosen unitary transformations. The approach is based on dressed integer excitations. Considerable weight is found at high energies in the two-particle sector. Precursors of fractional spinon physics occur implying that there is no necessity to resort to fractional excitations in order to describe features at higher energies.Comment: 6 pages, 4 figures included, minor text changes, improved figure

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