Driving superconducting qubits into chaos
Chávez-Carlos J, Reynoso M, Cortiñas R, García-Mata I, Batista V, Pérez-Bernal F, Wisniacki D, Santos L. Driving superconducting qubits into chaos. Quantum Science And Technology 2024, 10: 015039. DOI: 10.1088/2058-9565/ad93fb.Peer-Reviewed Original ResearchKerr-cat qubitsSuperconducting circuitsQuantum computationFault-tolerant quantum computationKerr parametric oscillatorQuantum chaosQuantum informationRegion of validityParametric oscillatorQubitsGate timeInduce chaosIncreasing nonlinearitiesPotential building blocksChaosKerrOscillationsGateNonlinearityRealizationCircuitHolographic Gaussian Boson Sampling with Matrix Product States on 3D cQED Processors
Lyu N, Bergold P, Soley M, Wang C, Batista V. Holographic Gaussian Boson Sampling with Matrix Product States on 3D cQED Processors. Journal Of Chemical Theory And Computation 2024, 20: 6402-6413. PMID: 38968605, DOI: 10.1021/acs.jctc.4c00384.Peer-Reviewed Original ResearchGaussian boson samplingCircuit quantum electrodynamicsBoson samplingMatrix product state representationQubit-based quantum computersCircuit quantum electrodynamics devicesMatrix product statesFock statesQuantum electrodynamicsHolographic approachQuantum circuitsQuantum computationProduct statesState representationTruncated expansionElectrodynamicsSimulation of molecular dockingState vectorModeStateSulfonamide ligandsMolecular dockingCircuitSimulation