Litcius/Paper detail

Quantum error thresholds for gauge-redundant digitizations of lattice field theories

Marcela Carena, Henry Lamm, Yingying Li, Wanqiang Liu

2024Physical review. D/Physical review. D.19 citationsDOIOpen Access PDF

Abstract

In the quantum simulation of lattice gauge theories, gauge symmetry can be either fixed or encoded as a redundancy of the Hilbert space. While gauge-fixing reduces the number of qubits, keeping the gauge redundancy can provide code space to mitigate and correct quantum errors by checking and restoring Gauss’s law. In this work, we consider the correctable errors for generic finite gauge groups and design the quantum circuits to detect and correct them. We calculate the error thresholds below which the gauge-redundant digitization with Gauss’s law error correction has better fidelity than the gauge-fixed digitization involving only gauge-invariant states. Our results provide guidance for fault-tolerant quantum simulations of lattice gauge theories. Published by the American Physical Society 2024

Topics & Concepts

Quantum gauge theoryLattice gauge theoryIntroduction to gauge theoryGauge anomalyHamiltonian lattice gauge theoryGauge fixingBRST quantizationPhysicsTheoretical physicsSupersymmetric gauge theoryQuantum error correctionQuantum mechanicsGauge symmetryGauge bosonMathematicsQubitGauge theoryQuantumQuantum Computing Algorithms and ArchitectureAdvanced Data Storage TechnologiesParallel Computing and Optimization Techniques