Topological quantum many-body scars in quantum dimer models on the kagome lattice
Julia Wildeboer, Alexander Seidel, N. S. Srivatsa, Anne E. B. Nielsen, Onur Erten
Abstract
We present a class of quantum dimer models on the kagome lattice with full translational invariance that feature a quantum many-body scar state of analytically known entanglement properties within their spectra. Using exact diagonalization on lattices of up to 60 sites, we show that nonscar states conform to the eigenstate thermalization hypothesis. Specifically, we show that energies are distributed according to the Gaussian ensemble expected of their respective symmetry sector, illustrate the existence of the scar from bipartite entanglement properties, and demonstrate revival phenomena in studies of fidelity dynamics.
Topics & Concepts
Quantum entanglementPhysicsQuantumBipartite graphQuantum mechanicsLattice (music)Quantum discordGaussianQuantum stateTheoretical physicsStatistical physicsMathematicsCombinatoricsGraphAcousticsQuantum many-body systemsAlgebraic structures and combinatorial modelsOpinion Dynamics and Social Influence