2011
Tunneling under Coherent Control by Sequences of Unitary Pulses
Saha R, Batista V. Tunneling under Coherent Control by Sequences of Unitary Pulses. The Journal Of Physical Chemistry B 2011, 115: 5234-5242. PMID: 21384933, DOI: 10.1021/jp108331x.Peer-Reviewed Original ResearchAnti-Zeno effectsQuantum ZenoQuantum dynamicsCoherent evolutionDynamical decoupling protocolsCoherent control scenarioSequence of pulsesCoherent controlDecoupling protocolQuantum statesIncoherent phenomenonStochastic sequencePulse fieldInterference phenomenaPerturbation theoryPulsesPossible realizationControl sequenceSubtle interplayFirst orderControl scenariosDecoherenceDynamicsTunnelingStochastic
2007
Multiple unitary-pulses for coherent-control of tunnelling and decoherence
Rego L, Abuabara S, Batista V. Multiple unitary-pulses for coherent-control of tunnelling and decoherence. Journal Of Modern Optics 2007, 54: 2617-2627. DOI: 10.1080/09500340701573343.Peer-Reviewed Original ResearchCoherent optical manipulationQuantum dynamical phenomenaControl of decoherenceElectronic quantum dynamicsCoherent quantum evolutionOverall relaxation dynamicsWave packet componentsQuantum control scenariosQuantum dot systemOptical manipulationQuantum controlQuantum dynamicsQuantum tunnelingPhonon cavityElectronic excitationElectron tunnelingRelaxation dynamicsDot systemState tunnelingPulse fieldTunneling processQuantum dotsThermal bathInterference phenomenaTunneling barrier
2006
Coherent control of tunnelling dynamics in functionalized semiconductor nanostructures: a quantum-control scenario based on stochastic unitary pulses
Rego L, Abuabara S, Batista V. Coherent control of tunnelling dynamics in functionalized semiconductor nanostructures: a quantum-control scenario based on stochastic unitary pulses. Journal Of Modern Optics 2006, 53: 2519-2532. DOI: 10.1080/09500340600952036.Peer-Reviewed Original ResearchQuantum control scenariosCoherent controlSemiconductor nanostructuresCoherent control scenarioCoherent quantum evolutionWave packet componentsQuartic double-well potentialDouble-well potentialQuantum evolutionTunneling dynamicsParticle tunnelingElectronic excitationPulse fieldInterference phenomenaTunneling barrierExchange energyTunnelingPulsesNanostructuresControl scenariosDynamicsExcitationEnergyFieldArchetype model
1999
Femtosecond photoelectron spectroscopy of the I2− anion: A semiclassical molecular dynamics simulation method
Batista V, Zanni M, Greenblatt B, Neumark D, Miller W. Femtosecond photoelectron spectroscopy of the I2− anion: A semiclassical molecular dynamics simulation method. The Journal Of Chemical Physics 1999, 110: 3736-3747. DOI: 10.1063/1.478263.Peer-Reviewed Original ResearchFemtosecond pump-probe photoelectron spectroscopySemiclassical molecular dynamics simulation methodPump-probe photoelectron spectroscopyFull quantum mechanical simulationsState photodissociation dynamicsElectronic transition dipole momentsPhotoelectron spectroscopyFemtosecond photoelectron spectroscopyQuantum mechanical simulationsNew semiclassical methodDelay time ΔtSemiclassical initial value representation methodTransition dipole momentsKinetic energy εPhotodissociation dynamicsPhotodetachment spectrumSemiclassical methodComputed spectraPulse fieldEnergy εCondon approximationDipole momentMechanical simulationsExcellent agreementMolecular dynamics simulation method