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Synthesizing three-body interaction of spin chirality with superconducting qubits

Wuxin Liu, Wei Feng, Wenhui Ren, Da-Wei Wang, H. Wang

2020Applied Physics Letters37 citationsDOIOpen Access PDF

Abstract

Superconducting qubits provide a competitive platform for quantum simulation of complex dynamics that lies at the heart of quantum many-body systems, because of the flexibility and scalability afforded by the nature of microfabrication. However, in a multiqubit device, the physical form of couplings between qubits is either an electric (capacitor) or magnetic field (inductor), and the associated quadratic field energy determines that only two-body interaction in the Hamiltonian can be directly realized. Here, we propose and experimentally synthesize a three-body spin-chirality interaction in a superconducting circuit based on Floquet engineering. By periodically modulating the resonant frequencies of the qubits connected with each other via capacitors, we can dynamically turn on and off qubit–qubit couplings and further create chiral flows of the excitations in the three-qubit circular loop. Our result is a step toward engineering dynamical and many-body interactions in multiqubit superconducting devices, which potentially expands the degree of freedom in quantum simulation tasks.

Topics & Concepts

QubitPhysicsFloquet theorySuperconducting quantum computingHamiltonian (control theory)Quantum mechanicsSuperconductivityQuantumMagnetic fieldFlux qubitQuantum computerSpin engineeringSpin (aerodynamics)Condensed matter physicsTopology (electrical circuits)Quadratic equationDephasingField (mathematics)Quantum decoherenceQuantum informationDegrees of freedom (physics and chemistry)Electric fieldQuantum electrodynamicsExchange interactionChirality (physics)Quantum logicPhase qubitRealization (probability)Quantum systemQuantum simulatorQuantum many-body systemsPhysics of Superconductivity and MagnetismMechanical and Optical Resonators
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