Gluon field digitization via group space decimation for quantum computers
Ji Yao, Henry Lamm, Shuchen Zhu
Abstract
Efficient digitization is required for quantum simulations of gauge theories. Schemes based on discrete subgroups use fewer qubits at the cost of systematic errors. We systematize this approach by deriving a single plaquette action for approximating general continuous gauge groups through integrating out field fluctuations. This provides insight into the effectiveness of these approximations, and how they could be improved. We accompany the scheme by simulations of pure gauge over the largest discrete subgroup of $SU(3)$ up to the third order.
Topics & Concepts
DigitizationGauge groupQubitGauge (firearms)Group (periodic table)Space (punctuation)Field (mathematics)DecimationTheoretical physicsGauge theoryScheme (mathematics)PhysicsQuantumOrder (exchange)MathematicsTopology (electrical circuits)Computer scienceQuantum mechanicsPure mathematicsCombinatoricsMathematical analysisTelecommunicationsGeographyOperating systemArchaeologyBandwidth (computing)EconomicsFinancePhysics of Superconductivity and MagnetismParticle physics theoretical and experimental studiesQuantum Chromodynamics and Particle Interactions