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Prediction of Toric Code Topological Order from Rydberg Blockade

Ruben Verresen, Mikhail D. Lukin, Ashvin Vishwanath

2021Physical Review X195 citationsDOIOpen Access PDF

Abstract

The physical realization of Z 2 topological order as encountered in the paradigmatic toric code has proven to be an elusive goal. We predict that this phase of matter can be realized in a two-dimensional array of Rydberg atoms placed on the ruby lattice, at specific values of the Rydberg blockade radius. First, we show that the blockade model-also known as a "PXP" model-realizes a monomer-dimer model on the kagome lattice with a single-site kinetic term. This model can be interpreted as a Z 2 gauge theory whose dynamics is generated by monomer fluctuations. We obtain its phase diagram using the numerical density matrix renormalization group method and find a topological quantum liquid (TQL) as evidenced by multiple measures including (i) a continuous transition between two featureless phases, (ii) a topological entanglement entropy of ln 2 as measured in various geometries, (iii) degenerate topological ground states, and (iv) the expected modular matrix from ground state overlap. Next, we show that the TQL persists upon including realistic, algebraically decaying van der Waals interactions Vr 1=r 6 for a choice of lattice parameters. Moreover, we can directly access topological loop operators, including the Fredenhagen-Marcu order parameter. We show how these can be measured experimentally using a dynamic protocol, providing a "smoking gun" experimental signature of the TQL phase. Finally, we show how to trap an emergent anyon and realize different topological boundary conditions, and we discuss the implications for exploring fault-tolerant quantum memories.

Topics & Concepts

Toric codeTopological orderPhysicsTopological degeneracyRydberg atomTopological entropy in physicsTopology (electrical circuits)AnyonDegenerate energy levelsQuantum entanglementRydberg formulaPeriodic boundary conditionsMatrix product stateSymmetry protected topological orderGround stateQuantum phase transitionQuantum mechanicsLattice (music)Quantum simulatorHamiltonian (control theory)QuantumGauge theoryTopological quantum numberIsing modelTopological defectTopological entropyDensity matrix renormalization groupPhase transitionPhase diagramTopological quantum computerTopological insulatorRenormalizationRealization (probability)Quantum phasesUniversality (dynamical systems)Lattice gauge theoryMatrix multiplicationRenormalization groupFermionTopological conjugacyTopological Materials and PhenomenaQuantum many-body systemsAdvanced Condensed Matter Physics
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