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Paper detail

Cyclic Spin Exchange in Cuprate Spin Ladders

We investigate the influence of a cyclic spin exchange J_{cyc} on the one- and two-triplet excitations of an undoped two-leg S=1/2 ladder, using the density matrix renormalization group (DMRG). The dispersion of the S=0 two-triplet bound state is dramatically reduced by J_{cyc} due to a repulsion between triplets on neighboring rungs. In (La,Ca)_{14}Cu_{24}O_{41} a consistent description of both the spin gap and the S=0 bound state requires $J_{cyc}/J_\perp \approx 0.20-0.27$ and $J/J_{\perp} \approx 1.25-1.35$. With these coupling ratios the recently developed dynamical DMRG yields an excellent description of the entire S=0 excitation spectrum observed in the optical conductivity, including the continuum contribution.

preprint2002arXivOpen access
Tamara S. NunnerPhilipp BruneThilo KoppMarco WindtMarkus Grüninger
cond-mat.str-el
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Tamara S. NunnerPhilipp BruneThilo KoppMarco WindtMarkus Grüninger

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