Krylov complexity, path integrals, and instantons
High Energy Physics - Theory
2026-02-20 v3 Quantum Physics
Abstract
Krylov complexity has emerged as an important tool in the description of quantum information and, in particular, quantum chaos. Here we formulate Krylov complexity for quantum mechanical systems as a path integral, and argue that at large times, for classical chaotic systems with at least two minima of the potential, that have a plateau for , the value of the plateau is described by quantum mechanical instantons, as is the case for standard transition amplitudes. We explain and test these ideas in a simple toy model.
Cite
@article{arxiv.2507.13226,
title = {Krylov complexity, path integrals, and instantons},
author = {Cameron Beetar and Eric L Graef and Jeff Murugan and Horatiu Nastase and Hendrik J R Van Zyl},
journal= {arXiv preprint arXiv:2507.13226},
year = {2026}
}
Comments
40 pages, 15 figures; references added;Appendix D added