We show that the effective coupling between the spin-1/2 edge states of a spin-1 chain of finite length can be continuously tuned by frustration. For the J1−J2 model with nearest and next-nearest neighbor antiferromagnetic interactions, we show that the effective coupling in a chain of length L changes sign N≃0.38L times in the window 0.28≲J2/J1≲0.75 where the short-range correlations are incommensurate. This implies that there are N zero modes where the singlet and the triplet are strictly degenerate, i.e. N values of J2/J1 where the spin-1/2 edge states are completely decoupled. We argue that this effect must be generic for all incommensurate phases with localized edge states, and we briefly discuss a few experimental implications.
@article{arxiv.1705.07868,
title = {Exact zero modes in frustrated Haldane chains},
author = {Natalia Chepiga and Frédéric Mila},
journal= {arXiv preprint arXiv:1705.07868},
year = {2017}
}
Comments
5 pages, 6 figures. The last paragraph about experimental implications has been rewritten