Krylov complexity for non-local spin chains
Abstract
Building upon recent research in spin systems with non-local interactions, this study investigates operator growth using the Krylov complexity in different non-local versions of the Ising model. We find that the non-locality results in a faster scrambling of the operator to all sites. While the saturation value of Krylov complexity of local integrable and local chaotic theories differ by a significant margin, this difference is much suppressed when non-local terms are introduced in both regimes. This results from the faster scrambling of information in the presence of non-locality. In addition, we investigate the behavior of level statistics and spectral form factor as probes of quantum chaos to study the integrability breaking due to non-local interactions. Our numerics indicate that in the non-local case, late time saturation of Krylov complexity distinguishes between different underlying theories, while the early time complexity growth distinguishes different degrees of non-locality.
Keywords
Cite
@article{arxiv.2312.11677,
title = {Krylov complexity for non-local spin chains},
author = {Aranya Bhattacharya and Pingal Pratyush Nath and Himanshu Sahu},
journal= {arXiv preprint arXiv:2312.11677},
year = {2025}
}
Comments
Author accepted manuscript, matches published version