Search results for "Point function"

showing 5 items of 5 documents

Hadronic light-by-light scattering contribution to the muon $g-2$ from lattice QCD: semi-analytical calculation of the QED kernel

2023

Hadronic light-by-light scattering is one of the virtual processes that causes the gyromagnetic factor $g$ of the muon to deviate from the value of two predicted by Dirac's theory. This process makes one of the largest contributions to the uncertainty of the Standard Model prediction for the muon $(g-2)$. Lattice QCD allows for a first-principles approach to computing this non-perturbative effect. In order to avoid power-law finite-size artifacts generated by virtual photons in lattice simulations, we follow a coordinate-space approach involving a weighted integral over the vertices of the QCD four-point function of the electromagnetic current carried by the quarks. Here we present in detai…

High Energy Physics - TheoryNuclear and High Energy Physicsmagnetic momentn-point function530 Physicsspace Euclidean4FOS: Physical sciences[PHYS.HLAT] Physics [physics]/High Energy Physics - Lattice [hep-lat]nonperturbativeEuclideandimension 4quarkHigh Energy Physics - LatticeHigh Energy Physics - Phenomenology (hep-ph)dimensionmuonquantum chromodynamicsquantum electrodynamicsphoton photoncomputerlatticeperturbation theoryphoton photon scatteringeffect nonperturbative[PHYS.HLAT]Physics [physics]/High Energy Physics - Lattice [hep-lat][PHYS.HTHE]Physics [physics]/High Energy Physics - Theory [hep-th]effectHigh Energy Physics - Lattice (hep-lat)scatteringphotonlattice field theoryspace530 Physikcurrent[PHYS.HPHE] Physics [physics]/High Energy Physics - Phenomenology [hep-ph]High Energy Physics - PhenomenologyelectromagneticHigh Energy Physics - Theory (hep-th)photon virtualn-point function 4finite size[PHYS.HPHE]Physics [physics]/High Energy Physics - Phenomenology [hep-ph]virtual[PHYS.HTHE] Physics [physics]/High Energy Physics - Theory [hep-th]current electromagnetic
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Hadronic light-by-light contribution to $(g-2)_\mu $ from lattice QCD: a complete calculation

2021

The European physical journal / C 81(7), 651 (2021). doi:10.1140/epjc/s10052-021-09455-4

Particle physicsmagnetic momentPhysics and Astronomy (miscellaneous)High Energy Physics::LatticeHadronNuclear TheoryLattice (group)hep-lat01 natural sciences530pi: massPionHigh Energy Physics - Latticemuon0103 physical sciencesddc:530010306 general physicsEngineering (miscellaneous)latticeParticle Physics - PhenomenologyPhysicsMuon010308 nuclear & particles physicsScattering[PHYS.HLAT]Physics [physics]/High Energy Physics - Lattice [hep-lat]High Energy Physics::Phenomenologylattice field theoryphoton photon: scatteringhep-phParticle Physics - LatticeFunction (mathematics)Lattice QCDtensionQuadrature (mathematics)High Energy Physics - Phenomenology[PHYS.HPHE]Physics [physics]/High Energy Physics - Phenomenology [hep-ph]High Energy Physics::Experimentn-point function: 4statistical
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The master two-loop two-point function. The general case

1991

Abstract We present a new calculation of the two-loop two-point function. Avoiding standard techniques such as Feynman parametrization and Wick rotation we end up with a simple double integral representation valid for arbitrary mass-cases. Numerical and analytical checks confirm our result.

PhysicsFeynman parametrizationNuclear and High Energy PhysicsRegularization (physics)Multiple integralWick rotationApplied mathematicsPropagatorPoint functionPhysics Letters B
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Event-by-event picture for the medium-induced jet evolution

2016

We discuss the evolution of an energetic jet which propagates through a dense quark-gluon plasma and radiates gluons due to its interactions with the medium. Within perturbative QCD, this evolution can be described as a stochastic branching process, that we have managed to solve exactly. We present exact, analytic, results for the gluon spectrum (the average gluon distribution) and for the higher n-point functions, which describe correlations and fluctuations. Using these results, we construct the event-by-event picture of the gluon distribution produced via medium-induced gluon branching. In contrast to what happens in a usual QCD cascade in vacuum, the medium-induced branchings are quasi-…

heavy ion: scatteringNuclear Theoryn-point functionHigh Energy Physics::LatticeNuclear TheoryPartonJet (particle physics)gluon: multiplicity01 natural sciencesHigh Energy Physics - Phenomenology (hep-ph)scaling: KNONuclear Experiment[ PHYS.NUCL ] Physics [physics]/Nuclear Theory [nucl-th]quark gluon: plasmamedia_commonQuantum chromodynamicsPhysicsPhysicsgluon: productionPerturbative QCDmatter: effectjet: asymmetrycascadeHigh Energy Physics - PhenomenologyCERN LHC CollNuclear and High Energy PhysicsParticle physics[PHYS.NUCL]Physics [physics]/Nuclear Theory [nucl-th]media_common.quotation_subjectQC1-999energy lossFOS: Physical sciencesjet: correlationformulaAsymmetryNuclear physicsNuclear Theory (nucl-th)gluon: spectrum0103 physical sciencesquantum chromodynamicsstochasticquantum chromodynamics: perturbation theory010306 general physicsScalingBranching processquantum chromodynamics: matterta114010308 nuclear & particles physicsgluon: fluctuationHigh Energy Physics::Phenomenologydijet: asymmetrygluon distributionGluonjet: energy losscorrelation[PHYS.HPHE]Physics [physics]/High Energy Physics - Phenomenology [hep-ph]Quark–gluon plasma[ PHYS.HPHE ] Physics [physics]/High Energy Physics - Phenomenology [hep-ph]gluon: radiationHigh Energy Physics::Experimentjet: quenchingEvent (particle physics)jet evolution
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Hadronic light-by-light contribution to $(g-2)_\mu$ from lattice QCD with SU(3) flavor symmetry

2020

We perform a lattice QCD calculation of the hadronic light-by-light contribution to $(g-2)_\mu$ at the SU(3) flavor-symmetric point $m_\pi=m_K\simeq 420\,$MeV. The representation used is based on coordinate-space perturbation theory, with all QED elements of the relevant Feynman diagrams implemented in continuum, infinite Euclidean space. As a consequence, the effect of using finite lattices to evaluate the QCD four-point function of the electromagnetic current is exponentially suppressed. Thanks to the SU(3)-flavor symmetry, only two topologies of diagrams contribute, the fully connected and the leading disconnected. We show the equivalence in the continuum limit of two methods of computin…

symmetry: flavorParticle physicstopologymagnetic momentPhysics and Astronomy (miscellaneous)Feynman graphHigh Energy Physics::LatticeLattice field theoryHadronExtrapolationhep-lat01 natural sciencesspace: Euclideansymbols.namesakePionHigh Energy Physics - LatticeLattice (order)quantum chromodynamics0103 physical sciencesquantum electrodynamicsFeynman diagramcontinuum limit010306 general physicsEngineering (miscellaneous)perturbation theorylatticeParticle Physics - PhenomenologyQuantum chromodynamicsPhysicsform factor: transitioncurrent: electromagneticfinite size: effect[PHYS.HLAT]Physics [physics]/High Energy Physics - Lattice [hep-lat]010308 nuclear & particles physicslattice field theoryphoton photon: scatteringhep-phParticle Physics - LatticeLattice QCDsuppressionHigh Energy Physics - Phenomenology[PHYS.HPHE]Physics [physics]/High Energy Physics - Phenomenology [hep-ph]symbolsflavor: SU(3)n-point function: 4
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