Quantum Topological Excitations: from the Sawtooth Lattice to the Heisenberg Chain

Abstract

The recently elucidated structure of the delafossite YCuO2.5 reveals a Cu-O network with nearly independent chains having different interactions between the s=1/2 spins. Motivated by this result, we study the chain for various ratios J bb/J bv of the base-base and base-vertex interactions. By exact diagonalization and extrapolation, we show that the elementary excitation spectrum, which (within numerical error) is the same for total spins S tot=0 and 1, has a gap only in the interval 0.4874(1) ≤ J bb/J bv ≤ 1.53(1). The gap is dispersionless for J bb/J bv=1, but has increasing k-dependence as J bb/J bv moves away from unity, related to the instability of dimers in the ground state.

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