Remarks on effects of projective phase on eigenstate thermalization hypothesis

Abstract

The existence of p-form symmetry in (d+1)-dimensional quantum field is known to always lead to the breakdown of the eigenstate thermalization hypothesis (ETH) for certain (d-p)-dimensional operators other than symmetry operators under some assumptions. The assumptions include the mixing of symmetry sectors within a given energy shell, which is rather challenging to verify because it requires information on the eigenstates in the middle of the spectrum. We reconsider this assumption from the viewpoint of projective representations to avoid this difficulty. In the case of ZN symmetries, we can circumvent the difficulty by considering ZN×ZN-symmetric theories with nontrivial projective phases, and perturbing the Hamiltonian while preserving one of the ZN symmetries of our interest. We also perform numerical analyses for (1+1)-dimensional spin chains and the (2+1)-dimensional Z2 lattice gauge theory.

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