Search results for "Quantum physic"

showing 10 items of 1596 documents

Nonequilibrium critical scaling in quantum thermodynamics

2016

The emerging field of quantum thermodynamics is contributing important results and insights into archetypal many-body problems, including quantum phase transitions. Still, the question whether out-of-equilibrium quantities, such as fluctuations of work, exhibit critical scaling after a sudden quench in a closed system has remained elusive. Here, we take a novel approach to the problem by studying a quench across an impurity quantum critical point. By performing density matrix renormalization group computations on the two-impurity Kondo model, we are able to establish that the irreversible work produced in a quench exhibits finite-size scaling at quantum criticality. This scaling faithfully …

Quantum phase transitionFOS: Physical sciencesNon-equilibrium thermodynamics02 engineering and technology01 natural sciencesCondensed Matter - Strongly Correlated Electronsquant-phCritical point (thermodynamics)Quantum critical pointQuantum mechanics0103 physical sciencesStatistical physicscond-mat.stat-mech010306 general physicsQuantum thermodynamicsCondensed Matter - Statistical MechanicsPhysicsQuantum PhysicsStatistical Mechanics (cond-mat.stat-mech)Strongly Correlated Electrons (cond-mat.str-el)Density matrix renormalization group021001 nanoscience & nanotechnology2-IMPURITY KONDO PROBLEM; MATRIX RENORMALIZATION-GROUP; JARZYNSKI EQUALITY; CRITICAL-POINT; SYSTEMS; MODELcond-mat.str-elQuantum Physics (quant-ph)0210 nano-technologyKondo modelCritical exponentPhysical Review B
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Thermodynamic, dynamic and transport properties of quantum spin liquid in herbertsmithite from experimental and theoretical point of view

2019

In our review we focus on the quantum spin liquid, defining the thermodynamic, transport and relaxation properties of geometrically frustrated magnets (insulators) represented by herbertsmithite $\rm ZnCu_{3}(OH)_6Cl_2$.

Quantum phase transitionGeometrical frustrationFOS: Physical sciences02 engineering and technologyengineering.material01 natural sciencesCondensed Matter - Strongly Correlated ElectronsQuantum state0103 physical sciences010306 general physicsQuantum computerPhysicsQuantum PhysicsCondensed matter physicsStrongly Correlated Electrons (cond-mat.str-el)quantum spin liquidsherbertsmithitetopological quantum phase transitions021001 nanoscience & nanotechnologyCondensed Matter Physicslcsh:QC1-999Electronic Optical and Magnetic Materialsflat bandsengineeringQuasiparticleState of matterHerbertsmithiteCondensed Matter::Strongly Correlated ElectronsQuantum spin liquidfermion condensation0210 nano-technologyQuantum Physics (quant-ph)lcsh:Physics
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Uhlmann curvature in dissipative phase transitions

2018

We study the mean Uhlmann curvature in fermionic systems undergoing a dissipative driven phase transition. We consider a paradigmatic class of lattice fermion systems in non-equilibrium steady-state of an open system with local reservoirs, which are characterised by a Gaussian fermionic steady state. In the thermodynamical limit, in systems with translational invariance we show that a singular behaviour of the Uhlmann curvature represents a sufficient criterion for criticalities, in the sense of diverging correlation length, and it is not otherwise sensitive to the closure of the Liouvillian dissipative gap. In finite size systems, we show that the scaling behaviour of the mean Uhlmann curv…

Quantum phase transitionPhase transitionSettore FIS/02 - Fisica Teorica Modelli E Metodi MatematiciCritical phenomenaGaussianlcsh:MedicineFOS: Physical sciencesQuantum phase transitionCurvature01 natural sciencesArticle010305 fluids & plasmassymbols.namesake0103 physical sciencesUhlmann curvatureStatistical physics010306 general physicslcsh:ScienceQuantumCondensed Matter - Statistical MechanicsPhysicsQuantum PhysicsMultidisciplinaryStatistical Mechanics (cond-mat.stat-mech)lcsh:RUhlmann geometric phaseFermionDissipative systemsymbolslcsh:QQuantum Physics (quant-ph)
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Geometry of quantum phase transitions

2020

In this article we provide a review of geometrical methods employed in the analysis of quantum phase transitions and non-equilibrium dissipative phase transitions. After a pedagogical introduction to geometric phases and geometric information in the characterisation of quantum phase transitions, we describe recent developments of geometrical approaches based on mixed-state generalisation of the Berry-phase, i.e. the Uhlmann geometric phase, for the investigation of non-equilibrium steady-state quantum phase transitions (NESS-QPTs ). Equilibrium phase transitions fall invariably into two markedly non-overlapping categories: classical phase transitions and quantum phase transitions, whereas i…

Quantum phase transitionPhysicsPhase transitionQuantum PhysicsDissipative phase transitions Geometric phase Quantum geometric information Quantum metrology Quantum phase transitionsStatistical Mechanics (cond-mat.stat-mech)010308 nuclear & particles physicsCritical phenomenaGeneral Physics and AstronomyFOS: Physical sciences01 natural sciencesTheoretical physicssymbols.namesakeGeometric phase0103 physical sciencesQuantum metrologyDissipative systemsymbols010306 general physicsHamiltonian (quantum mechanics)Quantum Physics (quant-ph)QuantumCondensed Matter - Statistical Mechanics
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Shortcut to Adiabaticity in the Lipkin-Meshkov-Glick Model

2015

We study transitionless quantum driving in an infinite-range many-body system described by the Lipkin-Meshkov-Glick model. Despite the correlation length being always infinite the closing of the gap at the critical point makes the driving Hamiltonian of increasing complexity also in this case. To this aim we develop a hybrid strategy combining shortcut to adiabaticity and optimal control that allows us to achieve remarkably good performance in suppressing the defect production across the phase transition.

Quantum phase transitionPhysicsPhase transitionQuantum PhysicsStatistical Mechanics (cond-mat.stat-mech)General Physics and AstronomyFOS: Physical sciencesNanotechnologyOptimal controlSettore FIS/03 - Fisica Della Materiashortcut to adiabaticity Lipkin-Meshkov-Glick Model many body hamiltoniansymbols.namesakesymbolsStatistical physicsHamiltonian (quantum mechanics)Quantum Physics (quant-ph)QuantumShortcut to adiabaticity in the Lipkin-Meshkov-Glick modelCondensed Matter - Statistical Mechanics
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Geometric phases and criticality in spin chain systems

2005

A relation between geometric phases and criticality of spin chains is established. As a result, we show how geometric phases can be exploited as a tool to detect regions of criticality without having to undergo a quantum phase transition. We analytically evaluate the geometric phase that correspond to the ground and excited states of the anisotropic XY model in the presence of a transverse magnetic field when the direction of the anisotropy is adiabatically rotated. Ultra-cold atoms in optical lattices are presented as a possible physical realization.

Quantum phase transitionPhysicsQuantum PhysicsCondensed matter physicsCondensed Matter - Mesoscale and Nanoscale PhysicsPhase (waves)General Physics and AstronomyFOS: Physical sciencesQuantum phase transitionClassical XY modelSpin-chain systemsGeometric phaseCriticalityUltracold atomQuantum mechanicsMesoscale and Nanoscale Physics (cond-mat.mes-hall)AnisotropyQuantum Physics (quant-ph)Spin-½
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Ground-state fidelity and bipartite entanglement in the Bose-Hubbard model.

2007

We analyze the quantum phase transition in the Bose-Hubbard model borrowing two tools from quantum-information theory, i.e. the ground-state fidelity and entanglement measures. We consider systems at unitary filling comprising up to 50 sites and show for the first time that a finite-size scaling analysis of these quantities provides excellent estimates for the quantum critical point.We conclude that fidelity is particularly suited for revealing a quantum phase transition and pinning down the critical point thereof, while the success of entanglement measures depends on the mechanisms governing the transition.

Quantum phase transitionPhysicsQuantum PhysicsHubbard modelFOS: Physical sciencesGeneral Physics and AstronomyQuantum entanglementBose–Hubbard modelSquashed entanglementMultipartite entanglementCondensed Matter - Other Condensed MatterQuantum mechanicsQuantum critical pointQuantum informationQuantum Physics (quant-ph)Other Condensed Matter (cond-mat.other)Physical review letters
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Scaling of Berry's phase close to the Dicke quantum phase transition

2006

We discuss the thermodynamic and finite size scaling properties of the geometric phase in the adiabatic Dicke model, describing the super-radiant phase transition for an $N$ qubit register coupled to a slow oscillator mode. We show that, in the thermodynamic limit, a non zero Berry phase is obtained only if a path in parameter space is followed that encircles the critical point. Furthermore, we investigate the precursors of this critical behavior for a system with finite size and obtain the leading order in the 1/N expansion of the Berry phase and its critical exponent.

Quantum phase transitionPhysicsQuantum PhysicsPhase transitionFOS: Physical sciencesGeneral Physics and AstronomyGeometric phaseCritical point (thermodynamics)Quantum mechanicsQubitThermodynamic limitQuantum phase transition Berry phaseQuantum Physics (quant-ph)Adiabatic processCritical exponentEurophysics Letters (EPL)
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Symmetry-protected intermediate trivial phases in quantum spin chains

2015

Symmetry-protected trivial (SPt) phases of matter are the product-state analogue of symmetry-protected topological (SPT) phases. This means, SPt phases can be adiabatically connected to a product state by some path that preserves the protecting symmetry. Moreover, SPt and SPT phases can be adiabatically connected to each other when interaction terms that break the symmetries protecting the SPT order are added in the Hamiltonian. It is also known that spin-1 SPT phases in quantum spin chains can emerge as effective intermediate phases of spin-2 Hamiltonians. In this paper we show that a similar scenario is also valid for SPt phases. More precisely, we show that for a given spin-2 quantum cha…

Quantum phase transitionPhysicsQuantum PhysicsStrongly Correlated Electrons (cond-mat.str-el)Time-evolving block decimationFOS: Physical sciences02 engineering and technologyQuantum entanglementQuantum phasesAstrophysics::Cosmology and Extragalactic Astrophysics021001 nanoscience & nanotechnology01 natural sciencesCondensed Matter - Strongly Correlated ElectronsQuantum mechanics0103 physical sciencesThermodynamic limitTopological order010306 general physics0210 nano-technologyCentral chargeQuantum Physics (quant-ph)Phase diagram
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Dynamical bifurcation as a semiclassical counterpart of a quantum phase transition

2011

We illustrate how dynamical transitions in nonlinear semiclassical models can be recognized as phase transitions in the corresponding -- inherently linear -- quantum model, where, in a Statistical Mechanics framework, the thermodynamic limit is realized by letting the particle population go to infinity at fixed size. We focus on lattice bosons described by the Bose-Hubbard (BH) model and Discrete Self-Trapping (DST) equations at the quantum and semiclassical level, respectively. After showing that the gaussianity of the quantum ground states is broken at the phase transition, we evaluate finite populations effects introducing a suitable scaling hypothesis; we work out the exact value of the…

Quantum phase transitionPhysicsQuantum Physicseducation.field_of_studyPhase transitionStatistical Mechanics (cond-mat.stat-mech)PopulationFOS: Physical sciencesSemiclassical physicsStatistical mechanicsAtomic and Molecular Physics and OpticsQuantum mechanicsThermodynamic limitQuantum Physics (quant-ph)educationCritical exponentQuantumCondensed Matter - Statistical MechanicsMathematical physicsPhysical Review A
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