Search results for " master equation"

showing 6 items of 16 documents

Geometric phase in open systems.

2003

We calculate the geometric phase associated to the evolution of a system subjected to decoherence through a quantum-jump approach. The method is general and can be applied to many different physical systems. As examples, two main source of decoherence are considered: dephasing and spontaneous decay. We show that the geometric phase is completely insensitive to the former, i.e. it is independent of the number of jumps determined by the dephasing operator.

PhysicsSpontaneous decaySpontaneous decayDensity matrixQuantum PhysicsQuantum decoherenceMarkovian master equationDephasingOperator (physics)Physical systemGeneral Physics and AstronomyFOS: Physical sciencesCondensed Matter::Mesoscopic Systems and Quantum Hall EffectGeometric phaseBerrys phaseStatistical physicsQuantum Physics (quant-ph)Physical review letters
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Spin-lattice relaxation of individual solid-state spins

2018

Understanding the effect of vibrations on the relaxation process of individual spins is crucial for implementing nanosystems for quantum information and quantum metrology applications. In this work, we present a theoretical microscopic model to describe the spin-lattice relaxation of individual electronic spins associated to negatively charged nitrogen-vacancy centers in diamond, although our results can be extended to other spin-boson systems. Starting from a general spin-lattice interaction Hamiltonian, we provide a detailed description and solution of the quantum master equation of an electronic spin-one system coupled to a phononic bath in thermal equilibrium. Special attention is given…

PhysicsThermal equilibriumQuantum PhysicsCondensed Matter - Mesoscale and Nanoscale PhysicsCondensed matter physicsSpinsPhononSpin–lattice relaxationFOS: Physical sciences02 engineering and technology021001 nanoscience & nanotechnology01 natural sciencessymbols.namesakeQuantum master equationMesoscale and Nanoscale Physics (cond-mat.mes-hall)0103 physical sciencessymbolsQuantum metrologyPhysics::Atomic and Molecular ClustersQuantum informationQuantum Physics (quant-ph)010306 general physics0210 nano-technologyHamiltonian (quantum mechanics)
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Reconstruction of time-dependent coefficients: a check of approximation schemes for non-Markovian convolutionless dissipative generators

2010

We propose a procedure to fully reconstruct the time-dependent coefficients of convolutionless non-Markovian dissipative generators via a finite number of experimental measurements. By combining a tomography based approach with a proper data sampling, our proposal allows to relate the time-dependent coefficients governing the dissipative evolution of a quantum system to experimentally accessible quantities. The proposed scheme not only provides a way to retrieve full information about potentially unknown dissipative coefficients but also, most valuably, can be employed as a reliable consistency test for the approximations involved in the theoretical derivation of a given non-Markovian convo…

PhysicsTomography Convolutionless master equationQuantum PhysicsQuantum decoherenceSettore FIS/02 - Fisica Teorica Modelli E Metodi MatematiciStochastic processSampling (statistics)Markov processFOS: Physical sciencesAtomic and Molecular Physics and Opticssymbols.namesakeQuantum mechanicsMaster equationDissipative systemsymbolsQuantum systemStatistical physicsQuantum Physics (quant-ph)Finite set
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Quantum collision models: Open system dynamics from repeated interactions

2022

We present an extensive introduction to quantum collision models (CMs), also known as repeated interactions schemes: a class of microscopic system-bath models for investigating open quantum systems dynamics whose use is currently spreading in a number of research areas. Through dedicated sections and a pedagogical approach, we discuss the CMs definition and general properties, their use for the derivation of master equations, their connection with quantum trajectories, their application in non-equilibrium quantum thermodynamics, their non-Markovian generalizations, their emergence from conventional system-bath microscopic models and link to the input-output formalism. The state of the art o…

Quantum non-Markovian dynamicsQuantum PhysicsQuantum opticsQuantum weak measurementsInput–output formalismFOS: Physical sciencesGeneral Physics and AstronomyRepeated interactionsSettore FIS/03 - Fisica Della MateriaOpen quantum systemsQuantum trajectoriesCascaded master equations; Input-output formalism; Open quantum systems; Quantum non-Markovian dynamics; Quantum optics; Quantum thermodynamics; Quantum trajectories; Quantum weak measurements; Repeated interactionsCascaded master equationsQuantum Physics (quant-ph)Quantum thermodynamicsPhysics Reports
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Ultrafast Carrier Redistribution in Single InAs Quantum Dots Mediated by Wetting-Layer Dynamics

2019

Optical studies of single self-assembled semiconductor quantum dots (QDs) have been a topic of intensive investigation over the past two decades. Due to their solid-state nature, their electronic and optical emission properties are affected by the particular crystal structure as well as many-body-carrier interactions and dynamics. In this work, we use a master equation for microstates (MEM) model to study the carrier capture and escape from single QDs under optical nonresonant excitation and under the influence of a two-dimensional (2D) carrier reservoir (the wetting layer). This model reproduces carrier dynamics from power-dependent and time-resolved microphotoluminescence experiments . Du…

Quantum opticsPhotoluminescenceMaterials sciencebusiness.industryMathematics::Operator AlgebrasQuantum dotsGeneral Physics and AstronomyPhysics::OpticsSingle-photon sourceLaserCondensed Matter::Mesoscopic Systems and Quantum Hall Effectlaw.inventionCondensed Matter::Materials ScienceOptical modulatorlawQuantum dotOptoelectronicsSemiconductor quantum dotsPhotonicsbusinessUltrashort pulseWetting layersemiconductor quantum dots master equation for microstates two-dimensional (2D) carrier reservoir carrier dynamics
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CONTROLLING THE QUANTUM DYNAMICS OF MULTIPARTITE JOSEPHSON CIRCUITS

2011

CONTROLLING THE QUANTUM DYNAMICS OF MULTIPARTITE JOSEPHSON CIRCUITS

quantum information josephson junctions entanglement master equationSettore FIS/03 - Fisica Della Materia
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