Search results for "CONFINEMENT"

showing 10 items of 213 documents

Strong magnetic fields in a nonlocal Polyakov chiral quark model

2018

We study the behavior of strongly interacting matter under an external constant magnetic field in the context of nonlocal chiral quark models that incorporate a coupling to the Polyakov loop. We find that at zero temperature the behavior of the quark condensates shows the expected magnetic catalysis effect, our predictions being in good quantitative agreement with lattice QCD results. On the other hand when the analysis is extended to the case of finite temperature our results show that nonlocal models naturally lead to the Inverse Magnetic Catalysis effect for both the chiral restoration and deconfinement transition temperatures.

PhysicsQuantum chromodynamicsQuarkCiencias Astronómicas010308 nuclear & particles physicsMagnetic catalysisPhysicsQC1-999High Energy Physics::LatticeHigh Energy Physics::PhenomenologyLattice field theoryQuark modelLattice QCD01 natural sciencesDeconfinementMagnetic fieldQuantum electrodynamics0103 physical sciencesNonlocal chiral quark models010306 general physicsCiencias ExactasQuantum chromodynamicsEPJ Web of Conferences
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One-photon decay of the tetraquark stateX(3872)→γ+J/ψin a relativistic constituent quark model with infrared confinement

2011

We further explore the consequences of treating the $X(3872)$ meson as a tetraquark bound state by analyzing its one-photon decay $X\ensuremath{\rightarrow}\ensuremath{\gamma}+J/\ensuremath{\psi}$ in the framework of our approach developed in previous papers which incorporates quark confinement in an effective way. To introduce electromagnetism we gauge a nonlocal effective Lagrangian describing the interaction of the $X(3872)$ meson with its four constituent quarks by using the $P$-exponential path-independent formalism. We calculate the matrix element of the transition $X\ensuremath{\rightarrow}\ensuremath{\gamma}+J/\ensuremath{\psi}$ and prove its gauge invariance. We evaluate the $X\ens…

PhysicsQuarkNuclear and High Energy PhysicsParticle physicsMesonHigh Energy Physics::PhenomenologyBound stateConstituent quarkHigh Energy Physics::ExperimentTetraquarkGauge theoryColor confinementX(3872)Physical Review D
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Calculation of the neutrinoless ββ decay of 76Ge using a quark model with harmonic confinement

1991

Abstract The half-life of the neutrinoless double beta decay of 76Ge into the ground state of 76Se is calculated in a relativistic quark confinement model. The proton-neutron quasi-particle random-phase approximation is used to evaluate the s- and p-wave nuclear matrix elements contained in the decay amplitude. We avoid the closure approximation and calculate the effective vector and axial-vector coupling constants of the hadronic currents using our quark model. In our formulation the recoil matrix element arises from the quark recoil in the decaying neutrons. The recoil and the p-wave effect are discussed and compared with other calculations. From the experimental lower bound for the decay…

PhysicsQuarkNuclear and High Energy PhysicsTop quarkParticle physicsHigh Energy Physics::PhenomenologyNuclear TheoryNuclear physicsMAJORANARecoilDouble beta decayHigh Energy Physics::ExperimentNeutronColor confinementNeutrinoNuclear ExperimentNuclear Physics A
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QCD Confinement and the Meson Spectrum

2003

From QCD and lattice calculations two specific forms of quark confining potential, a strict linear and a screened linear confinement, come out. Both forms of the potential, implemented by the one gluon exchange interaction, are applied to the description of heavy quarkonia: cc and bb. Applications to light hadrons, mesons and baryons, are also commented.

PhysicsQuarkQuantum chromodynamicsParticle physicsMesonHigh Energy Physics::LatticeNuclear TheoryHigh Energy Physics::PhenomenologyHadronExchange interactionGluonBaryonHigh Energy Physics::ExperimentColor confinementNuclear Experiment
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Light self-confinement via second harmonic generation in a 2D nonlinear photonic crystal waveguide

2007

Spatial solitary waves induced by quadratic nonlinearities have been the subject of many theoretical and experimental investigations in the last decade, with extensive studies being devoted to soliton formation in 1D nonlinear photonic crystals (NPC) such as PPLN (periodically poled LiNbO3). Here we present results on a new class of (1 + 1)D spatial solitary waves, the first examples of quadratic self-confinement in a 2D NPC.

PhysicsSecond-Harmonic Generationbusiness.industryPhysics::OpticsSecond-harmonic generationNonlinear opticsSoliton (optics)law.inventionNonlinear systemOpticsQuadratic equationlawNonlinear Photonic CrystalsNonlinear photonic crystalLight self-confinementbusinessNonlinear Sciences::Pattern Formation and SolitonsWaveguidePhotonic crystal2007 European Conference on Lasers and Electro-Optics and the International Quantum Electronics Conference
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Observer for a thick layer of solid deuterium-tritium using backlit optical shadowgraphy and interferometry.

2007

Our work is in the context of the French "laser megajoule" project, about fusion by inertial confinement. The project leads to the problem of characterizing the inner surface, of the approximately spherical target, by optical shadowgraphy techniques. Our work is entirely based on the basic idea that optical shadowgraphy produces "caustics" of systems of optical rays, which contain a great deal of 3D information about the surface to be characterized. We develop a method of 3D reconstruction based upon this idea plus a "small perturbations" technique. Although computations are made in the special "spherical" case, the method is in fact general and may be extended to several other situations.

Physicsbusiness.industryMaterials Science (miscellaneous)Context (language use)Observer (special relativity)ShadowgraphyLaserIndustrial and Manufacturing Engineeringlaw.inventionInterferometryOpticslawBusiness and International ManagementPerturbation theorybusinessInertial confinement fusionLaser MégajouleApplied optics
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Limitation of the ECRIS performance by kinetic plasma instabilities (invited).

2016

Electron cyclotron resonance ion source (ECRIS) plasmas are prone to kinetic instabilities due to anisotropic electron velocity distribution. The instabilities are associated with strong microwave emission and periodic bursts of energetic electrons escaping the magnetic confinement. The instabilities explain the periodic ms-scale oscillation of the extracted beam current observed with several high performance ECRISs and restrict the parameter space available for the optimization of extracted beam currents of highly charged ions. Experiments with the JYFL 14 GHz ECRIS have demonstrated that due to the instabilities the optimum Bmin-field is less than 0.8BECR, which is the value suggested by …

Physicsta114OscillationMagnetic confinement fusionPlasmaElectron01 natural sciencesplasma electronsElectron cyclotron resonanceIon source010305 fluids & plasmasIon0103 physical scienceselectron cyclotron resonance ion sourceskinetic instabilitiesAtomic physics010306 general physicsInstrumentationBeam (structure)The Review of scientific instruments
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Physicochemical investigation of cobalt?iron cyanide nanoparticles synthesized by a novel solid?solid reaction in confined space

2004

Cobalt–iron cyanide (Cox[Fe(CN)6]) nanoparticles have been synthesized by a novel solid–solid reaction in the confined space of dry sodium bis(2-ethylhexyl)sulfosuccinate (AOT) reversed micelles dispersed in n-heptane. The reaction has been carried out by mixing two dry AOT/n-heptane solutions containing CoCl2 and K4Fe(CN)6 or K3Fe(CN)6 nanoparticles in the micellar core, respectively. By UV-Vis spectroscopy it was ascertained that, after the mixing process, the formation of stable nanoparticles is fast and complete. Microcalorimetric measurements of the thermal effect due to the Cox[Fe(CN)6] nanoparticle formation allowed the determination of the stoichiometric ratio (x) and of the molar e…

Polymers and PlasticsSmall-angle X-ray scatteringCyanidechemistry.chemical_elementNanoparticleMicellechemistry.chemical_compoundColloid and Surface ChemistryAdsorptionCobalt–iron cyanide complexes Nanoparticles Solid–solid reaction Confinement effect AOT reversed micelleschemistryX-ray photoelectron spectroscopyMaterials ChemistryPhysical chemistryOrganic chemistryPhysical and Theoretical ChemistryCobaltStoichiometrySettore CHIM/02 - Chimica FisicaColloid and Polymer Science
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Size dependent light absorption modulation and enhanced carrier transport in germanium quantum dots devices

2015

Quantum confinement in closely packed arrays of Ge quantum dots (QDs) was studied for energy applications. In this work, we report an efficient tuning mechanism of the light harvesting and detection of Ge QDs. Thin films of SiGeO alloys, produced by rf-magnetron sputtering, were annealed at 600 degrees C in N-2 to induce precipitation of small amorphous Ge QDs into the oxide matrix. Varying the Ge content, the QD size was tailored between 2 and 4 nm, as measured by high resolution transmission electron microscopy. X-ray photoelectron spectroscopy (XPS) measurements indicate the formation of pure SiO2, as well as the presence of a sub-stoichiometric Ge oxide shell at the QD interface. Light …

Precipitation (chemical)Materials scienceAmorphous alloyBand gapchemistry.chemical_elementHigh resolution transmission electron microscopyPhotoconductive gainGermaniumNanocrystalMetal-insulator semiconductor deviceSettore ING-INF/01 - ElettronicaSettore FIS/03 - Fisica Della MateriaAbsorption spectroscopyQuantum confinement effectQuantum confinementElectromagnetic wave absorptionLight absorptionThin filmGermanium oxideOxide filmHigh-resolution transmission electron microscopyGermanium quantum dotPotential wellMIS deviceAmorphous filmGermaniumQuantum dotsRenewable Energy Sustainability and the Environmentbusiness.industryPhotoconductivitySolar cellPreferential trappingMIM deviceSemiconductor deviceSurfaces Coatings and FilmsElectronic Optical and Magnetic MaterialsPhotovoltaicschemistryMetal insulator boundarieQuantum dotrf-Magnetron sputtering Semiconductor quantum dotOptoelectronicsCharge carrierX ray photoelectron spectroscopy Effective mass approximationbusinessQuantum chemistryPhotovoltaicMagnetron sputteringSolar Energy Materials and Solar Cells
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Protein Thermal Denaturation and Matrix Glass Transition in Different Protein−Trehalose−Water Systems

2011

Biopreservation by saccharides is a widely studied issue due to its scientific and technological importance; in particular, ternary amorphous protein-saccharide-water systems are extensively exploited to model the characteristics of the in vivo biopreservation process. We present here a differential scanning calorimetry (DSC) study on amorphous trehalose-water systems with embedded different proteins (myoglobin, lysozyme, BSA, hemoglobin), which differ for charge, surface, and volume properties. In our study, the protein/trehalose molar ratio is kept constant at 1/40, while the water/sugar molar ratio is varied between 2 and 300; results are compared with those obtained for binary trehalose…

Protein DenaturationdenaturationMolecular Dynamics SimulationPhase TransitionDSCMatrix (chemical analysis)Hemoglobinschemistry.chemical_compoundDifferential scanning calorimetryMaterials ChemistryAnimalsglass transitionPhysical and Theoretical ChemistrytrehaloseSettore CHIM/02 - Chimica FisicaChromatographyCalorimetry Differential ScanningMyoglobinTemperatureProteinsWaterSerum Albumin BovineTrehaloseSettore FIS/07 - Fisica Applicata(Beni Culturali Ambientali Biol.e Medicin)Surfaces Coatings and FilmsAmorphous solidchemistryChemical engineeringMyoglobinconfinementCattleMuramidaseLysozymeTernary operationGlass transitionThe Journal of Physical Chemistry B
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