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Circuit-based digital adiabatic quantum simulation and pseudoquantum simulation as new approaches to lattice gauge theory

Xiaopeng Cui, Yu Shi, Ji-Chong Yang

2020Journal of High Energy Physics14 citationsDOIOpen Access PDF

Abstract

A bstract Gauge theory is the framework of the Standard Model of particle physics and is also important in condensed matter physics. As its major non-perturbative approach, lattice gauge theory is traditionally implemented using Monte Carlo simulation, consequently it usually suffers such problems as the Fermion sign problem and the lack of real-time dynamics. Hopefully they can be avoided by using quantum simulation, which simulates quantum systems by using controllable true quantum processes. The field of quantum simulation is under rapid development. Here we present a circuit-based digital scheme of quantum simulation of quantum ℤ 2 lattice gauge theory in 2 + 1 and 3 + 1 dimensions, using quantum adiabatic algorithms implemented in terms of universal quantum gates. Our algorithm generalizes the Trotter and symmetric decompositions to the case that the Hamiltonian varies at each step in the decomposition. Furthermore, we carry through a complete demonstration of this scheme in classical GPU simulator, and obtain key features of quantum ℤ 2 lattice gauge theory, including quantum phase transitions, topological properties, gauge invariance and duality. Hereby dubbed pseudoquantum simulation, classical demonstration of quantum simulation in state-of-art fast computers not only facilitates the development of schemes and algorithms of real quantum simulation, but also represents a new approach of practical computation.

Topics & Concepts

PhysicsQuantum simulatorQuantum algorithmLattice gauge theoryOpen quantum systemLattice field theoryQuantum mechanicsQuantum processQuantum operationQuantum computerQuantum phasesGauge theoryTheoretical physicsQuantum dissipationHamiltonian lattice gauge theoryQuantum dynamicsQuantum error correctionQuantum informationQuantum networkQuantum technologyLattice model (finance)Quantum Monte CarloIntroduction to gauge theoryGauge fixingQuantumStatistical physicsQuantization (signal processing)Quantum field theoryQuantum gauge theoryQuantum phase estimation algorithmQuantum annealingQuantum probabilityLattice (music)Topology (electrical circuits)Adiabatic quantum computationQuantum phase transitionQuantum information scienceQuantum Computing Algorithms and ArchitectureQuantum many-body systemsQuantum Information and Cryptography
Circuit-based digital adiabatic quantum simulation and pseudoquantum simulation as new approaches to lattice gauge theory | Litcius