Robust Dynamic Hamiltonian Engineering of Many-Body Spin Systems
Joonhee Choi, Hengyun Zhou, Helena S. Knowles, Renate Landig, Soonwon Choi, Mikhail D. Lukin
Abstract
A new framework for engineering quantum many-body systems uses pulsed periodic driving to tailor the system's Hamiltonian, setting the stage for improved quantum applications such as information processing, metrology, and simulation.
Topics & Concepts
PhysicsQuantumHamiltonian (control theory)Spin (aerodynamics)Quantum informationQuantum systemQuantum mechanicsQuantum computerQuantum sensorStatistical physicsQuantum technologyHamiltonian systemComputer scienceSpin engineeringOpen quantum systemRobustness (evolution)Quantum dynamicsQuantum entanglementQuantum algorithmQuantum information processingQuantum decoherenceQuantum processAmplitude damping channelQuantum metrologyQuantum dissipationRobust controlWork (physics)Adiabatic quantum computationQuantum controlQuantum information scienceQuantum dotQuantum many-body systemsQuantum Computing Algorithms and ArchitectureQuantum Information and Cryptography