English

Chaotic spin chains in AdS/CFT

High Energy Physics - Theory 2022-10-19 v1 Chaotic Dynamics

Abstract

We consider the spectrum of anomalous dimensions in planar N=4\mathcal{N}=4 supersymmetric Yang-Mills theory and its N=1\mathcal{N}=1 super-conformal Leigh-Strassler deformations. The two-loop truncation of the integrable N=4\mathcal{N}=4 dilatation operator in the SU(2)(2) sector, which is a next-to-nearest-neighbour deformation of the XXX spin chain, is not strictly integrable at finite coupling and we show that it indeed has Wigner-Dyson level statistics. However, we find that it is only weakly chaotic in the sense that the cross-over to chaotic dynamics is slower than for generic chaotic systems. For the Leigh-Strassler deformed theory with generic parameters, we show that the one-loop dilatation operator in the SU(3)(3) sector is chaotic, with a spectrum that is well described by GUE Random Matrix Theory. For the imaginary-β\beta deformation, the statistics are GOE and the transition from the integrable limit is that of a generic system. This provides a weak-coupling analogue of the chaotic dynamics seen for classical strings in the dual background. We further study the spin chains in the semi-classical limit described by generalised Landau-Lifshitz models, which are also known to describe large-angular-momentum string solutions in the dual theory. We show that for the higher-derivative theory following from the two-loop N=4\mathcal{N}=4 SU(2)(2) spin chain, the maximal Lyapunov exponent is close to zero, consistent with the absence of chaotic dynamics. For the imaginary-β\beta SU(3)(3) theory, the resulting Landau-Lifshitz model has classically chaotic dynamics at finite values of the deformation parameter.

Keywords

Cite

@article{arxiv.2202.12075,
  title  = {Chaotic spin chains in AdS/CFT},
  author = {Tristan McLoughlin and Anne Spiering},
  journal= {arXiv preprint arXiv:2202.12075},
  year   = {2022}
}

Comments

37 pages, 13 figures

R2 v1 2026-06-24T09:52:27.755Z