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arxiv: cond-mat/9802163 · v1 · submitted 1998-02-15 · ❄️ cond-mat.str-el

S=1/2 Chain-Boundary Excitations in the Haldane Phase of 1D S=1 Systems

classification ❄️ cond-mat.str-el
keywords betaexcitationsboundarieschain-boundaryhaldanelengthlocalizedaklt
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The $s=1/2$ chain-boundary excitations occurring in the Haldane phaseof $s=1$ antiferromagnetic spin chains are investigated. The bilinear-biquadratic hamiltonian is used to study these excitations as a function of the strength of the biquadratic term, $\beta$, between $-1\le\beta\le1$. At the AKLT point, $\beta=-1/3$, we show explicitly that these excitations are localized at the boundaries of the chain on a length scale equal to the correlation length $\xi=1/\ln 3$, and that the on-site magnetization for the first site is $<S^z_1>=2/3$. Applying the density matrixrenormalization group we show that the chain-boundaryexcitations remain localized at the boundaries for $-1\le\beta\le1$. As the two critical points $\beta=\pm1$ are approached the size of the $s=1/2$ objects diverges and their amplitude vanishes.

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