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Analytic Design of Accelerated Adiabatic Gates in Realistic Qubits: General Theory and Applications to Superconducting Circuits

F. Setiawan, Peter Groszkowski, Hugo Ribeiro, Aashish A. Clerk

2021PRX Quantum28 citationsDOIOpen Access PDF

Abstract

Shortcuts to adiabaticity is a general method for speeding up adiabatic quantum protocols, and has many potential applications in quantum information processing. Unfortunately, analytically constructing shortcuts to adiabaticity for systems having complex interactions and more than a few levels is a challenging task. This is usually overcome by assuming an idealized Hamiltonian [e.g., only a limited subset of energy levels are retained, and the rotating-wave approximation (RWA) is made]. Here we develop an analytic approach that allows one to go beyond these limitations. Our method is general and results in analytically derived pulse shapes that correct both nonadiabatic errors and non-RWA errors. We also show that our approach can yield pulses requiring a smaller driving power than conventional nonadiabatic protocols. We show in detail how our ideas can be used to analytically design high-fidelity single-qubit "tripod" gates in a realistic superconducting fluxonium qubit.

Topics & Concepts

Adiabatic processHamiltonian (control theory)PhysicsQuantumSuperconductivityQuantum computerStatistical physicsElectronic circuitAdiabatic quantum computationQuantum mechanicsGeneral theoryEnergy (signal processing)Power (physics)Quantum gateAdiabatic theoremTheoretical physicsQuantum informationQuantum circuitComputer scienceQuadratic equationLogic gateGeneral purposePulse (music)Work (physics)Topology (electrical circuits)Potential energyQuantum Information and CryptographyQuantum Computing Algorithms and ArchitectureQuantum and electron transport phenomena
Analytic Design of Accelerated Adiabatic Gates in Realistic Qubits: General Theory and Applications to Superconducting Circuits | Litcius