Search results for "Quantum dissipation"

showing 10 items of 40 documents

Dissipative dynamics in a quantum bistable system: Crossover from weak to strong damping

2015

The dissipative dynamics of a quantum bistable system coupled to a Ohmic heat bath is investigated beyond the spin-boson approximation. Within the path-integral approach to quantum dissipation, we propose an approximation scheme which exploits the separation of time scales between intra- and interwell (tunneling) dynamics. The resulting generalized master equation for the populations in a space localized basis enables us to investigate a wide range of temperatures and system-environment coupling strengths. A phase diagram in the coupling-temperature space is provided to give a comprehensive account of the different dynamical regimes.

PhysicsStatistics and ProbabilityQuantum decoherenceBistabilityStatistical Mechanics (cond-mat.stat-mech)ddc:530FOS: Physical sciencesCondensed Matter PhysicSpace (mathematics)530 PhysikCoupling (physics)Quantum mechanicsMaster equationStatistical physicsQuantum dissipationQuantumQuantum tunnellingCondensed Matter - Statistical MechanicsStatistical and Nonlinear Physic
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How Do Schr\"odinger's Cats Die?

2008

Recent experiments with superconducting qubits are motivated by the goal of fabricating a quantum computer, but at the same time they illuminate the more fundamental aspects of quantum mechanics. In this paper we analyze the physics of switching current measurements from the point of view of macroscopic quantum mechanics.

Physicsmedicine.medical_specialtyQuantum PhysicsCondensed Matter - Mesoscale and Nanoscale PhysicsQuantum dynamicsQuantum simulatorCondensed Matter PhysicsAtomic and Molecular Physics and OpticsQuantum technologyOpen quantum systemQuantization (physics)Classical mechanicsQuantum mechanicsComputerSystemsOrganization_MISCELLANEOUSQuantum nanosciencemedicineGeneral Materials ScienceQuantum dissipationQuantum computer
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Soliton Statistical Mechanics: Statistical Mechanics of the Quantum and Classical Integrable Models

1988

It is shown how the Bethe Ansatz (BA) analysis for the quantum statistical mechanics of the Nonlinear Schrodinger Model generalises to the other quantum integrable models and to the classical statistical mechanics of the classical integrable models. The bose-fermi equivalence of these models plays a fundamental role even at classical level. Two methods for calculating the quantum or classical free energies are developed: one generalises the BA method the other uses functional integral methods. The familiar classical action-angle variables of the integrable models developed for the real line R are used throughout, but the crucial importance of periodic boundary conditions is recognized and t…

Quantization (physics)Quantum dynamicsQuantum processMethod of quantum characteristicsQuantum inverse scattering methodQuantum statistical mechanicsQuantum dissipationQuantum chaosMathematical physicsMathematics
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Quantum groups and quantum complete integrability: Theory and experiment

2008

Quantum groupQuantum mechanicsBraid groupRydberg atomQuantum operationQuantum dissipationHopf algebraQuantumMicrowave cavityMathematics
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Quantum repulsive Nonlinear Schrödinger models and their ‘Superconductivity’

1995

Abstract The fundamental role played by the quantum repulsive Nonlinear Schrodinger (NLS) equation in the evolution of our understanding of the phenomenon of superconductivity in appropriate metals at very low temperatures is surveyed. The first major work was that in 1947 by N. N. Bogoliubov, who studied the very physical 3-space-dimensions problem and super fluidity; and the survey takes the form of an actual dedication to that outstanding scientist who died four years ago. The 3-space-dimensions NLS equation is not integrable either classically or quantum mechanically. But a number of recently discovered closely related lattices in one space dimension (one space plus one time dimension) …

Quantum phase transitionPhysicsGeneral MathematicsApplied MathematicsQuantum dynamicsGeneral Physics and AstronomyStatistical and Nonlinear Physicssymbols.namesakeTheoretical physicsQuantum mechanicsQuantum processsymbolsQuantum operationQuantum inverse scattering methodQuantum dissipationQuantumSchrödinger's catChaos, Solitons & Fractals
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The quantum trajectory approach to geometric phase for open systems

2005

The quantum jump method for the calculation of geometric phase is reviewed. This is an operational method to associate a geometric phase to the evolution of a quantum system subjected to decoherence in an open system. The method is general and can be applied to many different physical systems, within the Markovian approximation. As examples, two main source of decoherence are considered: dephasing and spontaneous decay. It is shown that the geometric phase is to very large extent insensitive to the former, i.e. it is independent of the number of jumps determined by the dephasing operator.

Quantum phase transitionPhysicsNuclear and High Energy PhysicsQuantum decoherenceDecoherence-free subspacesDephasingquantum computationGeometric phaseGeneral Physics and AstronomyAstronomy and AstrophysicsOpen quantum systemClassical mechanicsQuantum error correctionQuantum processQuantum dissipationdecoherence
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Population trapping due to cavity losses

2008

In population trapping the occupation of a decaying quantum level keeps a constant non-zero value. We show that an atom-cavity system interacting with an environment characterized by a non-flat spectrum, in the non-Markovian limit, exhibits such a behavior, effectively realizing the preservation of nonclassical states against dissipation. Our results allow to understand the role of cavity losses in hybrid solid state systems and pave the way to the proper description of leakage in the recently developed cavity quantum electrodynamic systems.

Settore FIS/02 - Fisica Teorica Modelli E Metodi MatematiciPopulationFOS: Physical sciences01 natural sciencesSettore FIS/03 - Fisica Della Materia010305 fluids & plasmasOpen quantum systemQuantum mechanics0103 physical sciencesNonclassical light010306 general physicseducationAmplitude damping channelQuantum opticsPhysicseducation.field_of_studyQuantum PhysicsQuantum limitCavity quantum electrodynamicsquantum noiseDecoherenceAtomic and Molecular Physics and OpticsCavity quantum electrodynamicQuantum electrodynamicsopen systemsQuantum dissipationQuantum Physics (quant-ph)
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Multi-State Quantum Dissipative Dynamics in Sub-Ohmic Environment: The Strong Coupling Regime

2015

We study the dissipative quantum dynamics and the asymptotic behavior of a particle in a bistable potential interacting with a sub-Ohmic broadband environment. The reduced dynamics, in the intermediate to strong dissipation regime, is obtained beyond the two-level system approximation by using a real-time path integral approach. We find a crossover dynamic regime with damped intra-well oscillations and incoherent tunneling and a completely incoherent regime at strong damping. Moreover, a nonmonotonic behavior of the left/right well population difference is found as a function of the damping strength.

Settore FIS/02 - Fisica Teorica Modelli E Metodi Matematiciquantum statistical methodsQuantum dynamicsPopulationGeneral Physics and Astronomylcsh:AstrophysicsOpen quantum systemPhysics and Astronomy (all)Quantum mechanicslcsh:QB460-466educationlcsh:ScienceQuantum statistical methodPhysicsQuantum discordeducation.field_of_studyopen quantum systemsDissipationlcsh:QC1-999Quantum processOpen quantum systemDissipative systemlcsh:QQuantum dissipationlcsh:Physicsquantum systems with finite Hilbert spaceEntropy
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Spin-Based Quantum Information Processing in Magnetic Quantum Dots

2005

We define the qubit as a pair of singlet and triplet states of two electrons in a He-type quantum dot (QD) placed in a diluted magnetic semiconductor (DMS) medium. The molecular field is here essential as it removes the degeneracy of the triplet state and strongly enhances the Zeeman splitting. Methods of qubit rotation as well as two-qubit operations are suggested. The system of a QD in a DMS is described in a way which allows an analysis of the decoherence due to spin waves in the DMS subsystem.

Statistics and ProbabilityPhysicsStatistical and Nonlinear PhysicsQuantum PhysicsCondensed Matter::Mesoscopic Systems and Quantum Hall EffectPhase qubitCondensed Matter::Materials ScienceQuantum dotQuantum mechanicsQubitSinglet stateTriplet stateQuantum informationQuantum dissipationMathematical PhysicsSpin-½Open Systems & Information Dynamics
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An Operator-Based Exact Treatment of Open Quantum Systems

2005

"Quantum mechanics must be regarded as open systems. On one hand, this is due to the fact that, like in classical physics, any realistic system is subjected to a coupling to an uncontrollable environment which influences it in a non-negligible way. The theory of open quantum systems thus plays a major role in many applications of quantum physics since perfect isolation of quantum system is not possible and since a complete microscopic description or control of the environment degrees of freedom is not feasible or only partially so" [1]. Practical considerations therefore force one to seek for a simpler, effectively probabilistic description in terms of an open system. There is a close physi…

Statistics and ProbabilityQuantum networkQuantum PhysicsFOS: Physical sciencesStatistical and Nonlinear PhysicsQuantum probabilityOpen quantum systemClassical mechanicsQuantum processQuantum operationQuantum algorithmQuantum informationQuantum dissipationQuantum Physics (quant-ph)Mathematical PhysicsMathematics
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