Search results for "Entropy"

showing 10 items of 496 documents

Temperature dependence of η/s : uncertainties from the equation of state

2018

We perform a global model-to-data comparison on Au+Au collisions at $\sqrt{s_{NN}}=200$ GeV and Pb+Pb collisions at $2.76$ TeV and $5.02$ TeV, using a 2+1D hydrodynamics model with the EKRT initial state and a shear viscosity over entropy density ratio $(\eta/s)(T)$ with a linear $T$ dependence. To quantify the amount of uncertainty due to the choice of the equation of state (EoS), we compare analysis results based on four different EoSs: the well known $s95p$ parametrisation, an updated parametrisation based on the same list of particles in hadron resonance gas, but using recent lattice results for the partonic part of the EoS, and two new parametrisations based on the Particle Data Group …

PhysicsParticle physicsnucl-thNuclear Theory010308 nuclear & particles physicsShear viscosityHadronParticle Data Grouphep-phhiukkasfysiikka01 natural sciences114 Physical sciencesEntropy densityHigh Energy Physics - PhenomenologyNuclear Physics - Theory0103 physical sciencesEntropy (information theory)High Energy Physics::Experiment010306 general physicsNuclear ExperimentNuclear theoryParametrizationParticle Physics - Phenomenology
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Validity of Landauer principle and quantum memory effects via collision models

2019

We study the validity of Landauer principle in the non-Markovian regime by means of collision models where the intracollisions inside the reservoir cause memory effects generating system-environment correlations. We adopt the system-environment correlations created during the dynamical process to assess the effect of non-Markovianity on the Landauer principle. Exploiting an exact equality for the entropy change of the system, we find the condition for the violation of the Landauer principle, which occurs when the established system-environment correlations become larger than the entropy production of the system. We then generalize the study to the non-equilibrium situation where the system …

PhysicsQuantum PhysicsLandauer's principleNon-equilibrium thermodynamicsFOS: Physical sciences01 natural sciencesAtomic and Molecular Physics and OpticsSettore FIS/03 - Fisica Della MateriaQuantum memory010305 fluids & plasmas0103 physical sciencesStatistical physics010306 general physicsQuantum Physics (quant-ph)Entropy (arrow of time)
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Entropy production and information fluctuations along quantum trajectories

2013

Employing the stochastic wave function method, we study quantum features of stochastic entropy production in nonequilibrium processes of open systems. It is demonstarted that continuous measurements on the environment introduce an additional, non-thermal contribution to the entropy flux, which is shown to be a direct consequence of quantum fluctuations. These features lead to a quantum definition of single trajectory entropy contributions, which accounts for the difference between classical and quantum trajectories and results in a quantum correction to the standard form of the integral fluctuation theorem.

PhysicsQuantum PhysicsQuantum discordQuantum ThermodynamicSettore FIS/02 - Fisica Teorica Modelli E Metodi MatematiciStatistical Mechanics (cond-mat.stat-mech)EntropyFOS: Physical sciencesAtomic and Molecular Physics and OpticsQuantum relative entropySettore FIS/03 - Fisica Della MateriaGeneralized relative entropyQuantum probabilityClassical mechanicsQuantum processQuantum InformationQuantum dissipationAmplitude damping channelQuantum Physics (quant-ph)Condensed Matter - Statistical MechanicsJoint quantum entropy
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Steepest entropy ascent for two-state systems with slowly varying Hamiltonians.

2018

The steepest entropy ascent approach is considered and applied to two-state systems. When the Hamiltonian of the system is time-dependent, the principle of maximum entropy production can still be exploited; arguments to support this fact are given. In the limit of slowly varying Hamiltonians, which allows for the adiabatic approximation for the unitary part of the dynamics, the system exhibits significant robustness to the thermalization process. Specific examples such as a spin in a rotating field and a generic two-state system undergoing an avoided crossing are considered.

PhysicsQuantum PhysicsSettore FIS/02 - Fisica Teorica Modelli E Metodi MatematiciPrinciple of maximum entropyAvoided crossingNon-linear dynamicAdiabatic EvolutionsNon-equilibrium thermodynamicsFOS: Physical sciences01 natural sciencesUnitary stateSettore FIS/03 - Fisica Della Materia010305 fluids & plasmasAdiabatic theoremNonlinear systemThermalisation0103 physical sciencesStatistical physics010306 general physicsQuantum Physics (quant-ph)Entropy (arrow of time)Statistical and Nonlinear PhysicNon-Equilibrium thermodynamicPhysical review. E
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Topological transitions from multipartite entanglement with tensor networks: a procedure for sharper and faster characterization

2014

Topological order in a 2d quantum matter can be determined by the topological contribution to the entanglement R\'enyi entropies. However, when close to a quantum phase transition, its calculation becomes cumbersome. Here we show how topological phase transitions in 2d systems can be much better assessed by multipartite entanglement, as measured by the topological geometric entanglement of blocks. Specifically, we present an efficient tensor network algorithm based on Projected Entangled Pair States to compute this quantity for a torus partitioned into cylinders, and then use this method to find sharp evidence of topological phase transitions in 2d systems with a string-tension perturbation…

PhysicsQuantum PhysicsStrongly Correlated Electrons (cond-mat.str-el)Topological degeneracyHigh Energy Physics - Lattice (hep-lat)General Physics and AstronomyFOS: Physical sciencesQuantum topologyTopologySquashed entanglement530Topological entropy in physicsMultipartite entanglementSymmetry protected topological orderCondensed Matter - Strongly Correlated ElectronsHigh Energy Physics - LatticeTopological orderQuantum Physics (quant-ph)Topological quantum number
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Mutual information and spontaneous symmetry breaking

2015

We show that the metastable, symmetry-breaking ground states of quantum many-body Hamiltonians have vanishing quantum mutual information between macroscopically separated regions, and are thus the most classical ones among all possible quantum ground states. This statement is obvious only when the symmetry-breaking ground states are simple product states, e.g. at the factorization point. On the other hand, symmetry-breaking states are in general entangled along the entire ordered phase, and to show that they actually feature the least macroscopic correlations compared to their symmetric superpositions is highly non trivial. We prove this result in general, by considering the quantum mutual …

PhysicsQuantum discordQuantum PhysicsStrongly Correlated Electrons (cond-mat.str-el)FOS: Physical sciencesQuantum capacityQuantum entanglementCoherent information01 natural sciencesQuantum relative entropyAtomic and Molecular Physics and Optics010305 fluids & plasmasCondensed Matter - Strongly Correlated ElectronsQuantum mechanicsAtomic and Molecular Physics0103 physical sciencesand Optics010306 general physicsQuantum mutual informationAmplitude damping channelmutual informationQuantum Physics (quant-ph)Joint quantum entropy
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Entropic trade-off relations for quantum operations

2013

Spectral properties of an arbitrary matrix can be characterized by the entropy of its rescaled singular values. Any quantum operation can be described by the associated dynamical matrix or by the corresponding superoperator. The entropy of the dynamical matrix describes the degree of decoherence introduced by the map, while the entropy of the superoperator characterizes the a priori knowledge of the receiver of the outcome of a quantum channel Phi. We prove that for any map acting on a N--dimensional quantum system the sum of both entropies is not smaller than ln N. For any bistochastic map this lower bound reads 2 ln N. We investigate also the corresponding R\'enyi entropies, providing an …

PhysicsQuantum discordQuantum PhysicsSuperoperatorFOS: Physical sciencesQuantum capacityMathematical Physics (math-ph)Strong Subadditivity of Quantum Entropy01 natural sciencesAtomic and Molecular Physics and OpticsQuantum relative entropy010305 fluids & plasmasQuantum mechanicsConditional quantum entropy0103 physical sciences010306 general physicsAmplitude damping channelQuantum Physics (quant-ph)Joint quantum entropyMathematical Physics
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Noncompact Topological Quantum Groups

1995

A star-product construction of quantum semisimple real Lie groups is performed for the noncompact case.

PhysicsQuantum groupLie groupTopological entropy in physicsSymmetry protected topological orderTheoretical physicsMathematics::Quantum AlgebraInverse scattering problemAstrophysics::Solar and Stellar AstrophysicsMathematics::Differential GeometryMathematics::Representation TheoryQuantumAstrophysics::Galaxy AstrophysicsTopological quantum number
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New structures in the theory of the laser model. II. Microscopic dynamics and a nonequilibrium entropy principle

1998

In a recent article, Alli and Sewell [J. Math. Phys. 36, 5598 (1995)] formulated a new version of the Dicke-Hepp-Lieb laser model in terms of quantum dynamical semigroups, and thereby extended the macroscopic picture of the model. In the present article, we complement that picture with a corresponding microscopic one, which carries the following new results. (a) The local microscopic dynamics of the model is piloted by the classical, macroscopic field, generated by the collective action of its components; (b) the global state of the system carries no correlations between its constituent atoms after transient effects have died out; and (c) in the latter situation, the state of the system at …

PhysicsQuantum opticsEntropy principleEntropy (statistical thermodynamics)Non-equilibrium thermodynamicsStatistical and Nonlinear PhysicsLaserlaw.inventionEntropy densityClassical mechanicslawMathematical PhysicStatistical physicsSettore MAT/07 - Fisica MatematicaQuantumMathematical PhysicsJoint quantum entropy
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The physical origin of a photon-number parity effect in cavity quantum electrodynamics

2021

Abstract The rapidly increasing capability to modulate the physicochemical properties of atomic groups and molecules by means of their coupling to radiation, as well as the revolutionary potential of quantum computing for materials simulation and prediction, fuel the interest for non-classical phenomena produced by atom-radiation interaction in confined space. One of such phenomena is a “parity effect” that arises in the dynamics of an atom coupled to two degenerate cavity field modes by two-photon processes and manifests itself as a strong dependence of the field dynamics on the parity of the initial number of photons. Here we identify the physical origin of this effect in the quantum corr…

PhysicsQuantum opticsPhotonEntropyPhysicsQC1-999Degenerate energy levelsCavity quantum electrodynamicsGeneral Physics and AstronomyParity (physics)Quantum entanglementAtom-field interaction; Entropy; Parity effect; Quantum entanglement; Quantum opticsParity effectQuantum entanglementAtom-field interactionQuantum mechanicsQuantum informationQuantumQuantum computerResults in Physics
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