Krylov complexity in quantum field theory, and beyond

Alexander Avdoshkin; Anatoly Dymarsky; Michael Smolkin

doi:10.1007/JHEP06(2024)066

Krylov complexity in quantum field theory, and beyond

Alexander Avdoshkin
, Anatoly Dymarsky
, Michael Smolkin

Research output: Contribution to journal › Article › peer-review

47 Scopus citations

Abstract

We study Krylov complexity in various models of quantum field theory: free massive bosons and fermions on flat space and on spheres, holographic models, and lattice models with a UV-cutoff. In certain cases, we observe asymptotic behavior in Lanczos coefficients that extends beyond the previously observed universality. We confirm that, in all cases, the exponential growth of Krylov complexity satisfies the conjectured inequality, which generalizes the Maldacena-Shenker-Stanford bound on chaos. We discuss the temperature dependence of Lanczos coefficients and note that the relationship between the growth of Lanczos coefficients and chaos may only hold for the sufficiently late, truly asymptotic regime, governed by physics at the UV cutoff. Contrary to previous suggestions, we demonstrate scenarios in which Krylov complexity in quantum field theory behaves qualitatively differently from holographic complexity.

Original language	English
Article number	66
Journal	Journal of High Energy Physics
Volume	2024
Issue number	6
DOIs	https://doi.org/10.1007/JHEP06(2024)066
State	Published - Jun 2024

Bibliographical note

Publisher Copyright:
© The Author(s) 2024.

Funding

We thank Dmitri Trunin for collaboration at the early stages of this project, and Luca Delacretaz, Matthew Dodelson, Oleg Lychkovskiy, Julian Sonner, Subir Sachdev, Adrian Sanchez-Garrido, and Erez Urbach for discussions. AA acknowledges support from a Kavli ENSI fellowship and the NSF under grant number DMR-1918065. AD is supported by the National Science Foundation under Grants PHY-2013812 and 2310426.

Funders	Funder number
Kavli ENSI
National Science Foundation Arctic Social Science Program	PHY-2013812, DMR-1918065, 2310426

Keywords

AdS-CFT Correspondence
Effective Field Theories
Nonperturbative Effects

ASJC Scopus subject areas

Nuclear and High Energy Physics

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10.1007/JHEP06(2024)066

Cite this

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abstract = "We study Krylov complexity in various models of quantum field theory: free massive bosons and fermions on flat space and on spheres, holographic models, and lattice models with a UV-cutoff. In certain cases, we observe asymptotic behavior in Lanczos coefficients that extends beyond the previously observed universality. We confirm that, in all cases, the exponential growth of Krylov complexity satisfies the conjectured inequality, which generalizes the Maldacena-Shenker-Stanford bound on chaos. We discuss the temperature dependence of Lanczos coefficients and note that the relationship between the growth of Lanczos coefficients and chaos may only hold for the sufficiently late, truly asymptotic regime, governed by physics at the UV cutoff. Contrary to previous suggestions, we demonstrate scenarios in which Krylov complexity in quantum field theory behaves qualitatively differently from holographic complexity.",

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AU - Avdoshkin, Alexander

AU - Dymarsky, Anatoly

AU - Smolkin, Michael

N1 - Publisher Copyright: © The Author(s) 2024.

PY - 2024/6

Y1 - 2024/6

N2 - We study Krylov complexity in various models of quantum field theory: free massive bosons and fermions on flat space and on spheres, holographic models, and lattice models with a UV-cutoff. In certain cases, we observe asymptotic behavior in Lanczos coefficients that extends beyond the previously observed universality. We confirm that, in all cases, the exponential growth of Krylov complexity satisfies the conjectured inequality, which generalizes the Maldacena-Shenker-Stanford bound on chaos. We discuss the temperature dependence of Lanczos coefficients and note that the relationship between the growth of Lanczos coefficients and chaos may only hold for the sufficiently late, truly asymptotic regime, governed by physics at the UV cutoff. Contrary to previous suggestions, we demonstrate scenarios in which Krylov complexity in quantum field theory behaves qualitatively differently from holographic complexity.

AB - We study Krylov complexity in various models of quantum field theory: free massive bosons and fermions on flat space and on spheres, holographic models, and lattice models with a UV-cutoff. In certain cases, we observe asymptotic behavior in Lanczos coefficients that extends beyond the previously observed universality. We confirm that, in all cases, the exponential growth of Krylov complexity satisfies the conjectured inequality, which generalizes the Maldacena-Shenker-Stanford bound on chaos. We discuss the temperature dependence of Lanczos coefficients and note that the relationship between the growth of Lanczos coefficients and chaos may only hold for the sufficiently late, truly asymptotic regime, governed by physics at the UV cutoff. Contrary to previous suggestions, we demonstrate scenarios in which Krylov complexity in quantum field theory behaves qualitatively differently from holographic complexity.

KW - AdS-CFT Correspondence

KW - Effective Field Theories

KW - Nonperturbative Effects

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UR - https://www.scopus.com/pages/publications/85196172010#tab=citedBy

U2 - 10.1007/JHEP06(2024)066

DO - 10.1007/JHEP06(2024)066

M3 - Article

AN - SCOPUS:85196172010

SN - 1126-6708

VL - 2024

JO - Journal of High Energy Physics

JF - Journal of High Energy Physics

IS - 6

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ER -

Krylov complexity in quantum field theory, and beyond

Abstract

Bibliographical note

Funding

Keywords

ASJC Scopus subject areas

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