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Dynamical structure factor of random antiferromagnetic Heisenberg spin chains

Combining quantum Monte Carlo simulations with the maximum entropy method, we study the dynamical structure factor $S(k,ω)$ of spin-1/2 antiferromagnetic Heisenberg chains with various random bond distributions. We emphasize the crossover behavior in the dynamical properties from pure chain to disorder-dominated random singlet phase due to bond randomness. For the distribution corresponding to the infinite randomness fixed point, $S(k,ω)$ develops broad non-spinon excitations as well as the random-singlet peak near $(k, ω) = (π, 0)$, consistent with the known results obtained by the real-space renormalization group method. For weak disorder, however, we find clear signature of spinon excitations, reminiscent of pure spin chains, blurred by disorder. We discuss the implication for experiments on random-bond antiferromagnetic spin chains, realizable, e.g., in BaCu$_2$(Si$_x$Ge$_{1-x}$)$_2$O$_7$.

preprint2011arXivOpen access
Zhaoxin XuHeping YingXin Wan
cond-mat.str-elcond-mat.mtrl-sci
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Zhaoxin XuHeping YingXin Wan

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