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Random Matrix Spectral Form Factor in Kicked Interacting Fermionic Chains

Statistical Mechanics 2021-01-04 v1 Mathematical Physics math.MP Quantum Physics

Abstract

We study quantum chaos and spectral correlations in periodically driven (Floquet) fermionic chains with long-range two-particle interactions, in the presence and absence of particle number conservation (U(1)U(1)) symmetry. We analytically show that the spectral form factor precisely follows the prediction of random matrix theory in the regime of long chains, and for timescales that exceed the so-called Thouless/Ehrenfest time which scales with the size LL as O(L2){\cal O}(L^2), or O(L0){\cal O}(L^0), in the presence, or absence of U(1)U(1) symmetry, respectively. Using random phase assumption which essentially requires long-range nature of interaction, we demonstrate that the Thouless time scaling is equivalent to the behavior of the spectral gap of a classical Markov chain, which is in the continuous-time (Trotter) limit generated, respectively, by a gapless XXXXXX, or gapped XXZXXZ, spin-1/2 chain Hamiltonian.

Keywords

Cite

@article{arxiv.2005.10489,
  title  = {Random Matrix Spectral Form Factor in Kicked Interacting Fermionic Chains},
  author = {Dibyendu Roy and Tomaž Prosen},
  journal= {arXiv preprint arXiv:2005.10489},
  year   = {2021}
}

Comments

6 pages, 1 figure

R2 v1 2026-06-23T15:42:30.876Z