Search results for "Field Theory"

showing 10 items of 1188 documents

The algebraic structure of cohomological field theory

1993

Abstract The algebraic foundation of cohomological field theory is presented. It is shown that these theories are based upon realizations of an algebra which contains operators for both BRST and vector supersymmetry. Through a localization of this algebra, we construct a theory of cohomological gravity in arbitrary dimensions. The observables in the theory are polynomial, but generally non-local operators, and have a natural interpretation in terms of a universal bundle for gravity. As such, their correlation functions correspond to cohomology classes on moduli spaces of Riemannian connections. In this uniformization approach, different moduli spaces are obtained by introducing curvature si…

Pure mathematicsTopological quantum field theoryDifferential formAlgebraic structureGeneral Physics and AstronomyCodimensionModuli spaceAlgebraOperator algebraQuantum gravityGeometry and TopologyOperator product expansionMathematical PhysicsGeneral Theoretical PhysicsMathematics
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Artin groups of spherical type up to isomorphism

2003

AbstractWe prove that two Artin groups of spherical type are isomorphic if and only if their defining Coxeter graphs are the same.

Pure mathematics[ MATH.MATH-GR ] Mathematics [math]/Group Theory [math.GR]20F36Group Theory (math.GR)01 natural sciences[MATH.MATH-GR]Mathematics [math]/Group Theory [math.GR]Mathematics::Group Theory0103 physical sciencesArtin L-functionFOS: Mathematics0101 mathematicsMathematics::Representation Theory[MATH.MATH-GR] Mathematics [math]/Group Theory [math.GR]MathematicsDiscrete mathematicsGroup isomorphismAlgebra and Number TheoryNon-abelian class field theory010102 general mathematicsCoxeter groupConductorArtin group010307 mathematical physicsArtin reciprocity lawIsomorphismMathematics - Group TheoryJournal of Algebra
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Polymer brushes on flat and curved surfaces: How computer simulations can help to test theories and to interpret experiments

2012

Theoretical descriptions of static properties of polymer brushes are reviewed, with an emphasis on monodisperse macromolecules grafted to planar, cylindrical, or spherical substrates. Blob concepts and resulting scaling relations are outlined, and various versions of the self-consistent field theory are summarized: the classical approximation and the strong stretching limit, as well as the lattice formulation. The physical justification of various inherent assumptions is discussed, and computer simulation results addressing the test of the validity of these approximations are reviewed. Also, alternative theories, such as the single chain mean field theory and the density functional theory, …

Quantitative Biology::BiomoleculesMaterials sciencePolymers and PlasticsContinuum (measurement)Monte Carlo methodCondensed Matter PhysicsCondensed Matter::Soft Condensed MatterMolecular dynamicsPlanarMean field theoryLattice (order)Materials ChemistryDensity functional theoryStatistical physicsPhysical and Theoretical ChemistryScalingJournal of Polymer Science Part B: Polymer Physics
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Simulation of Phase Transitions of Single Polymer Chains: Recent Advances

2006

The behaviour of a flexible polymer chain in solvents of variable quality in dilute solution is discussed both in the bulk and in the presence of an adsorbing wall. Monte Carlo simulations of coarse-grained bead-spring models and of the bond fluctuation model are presented and interpreted in terms of phenomenological theories and scaling concepts. Particular attention is paid to the behaviour of the polymer chain when the temperature of the polymer solution gets lower than the Theta temperature. It is argued that the adsorption transition line at the Theta temperature splits into lines of wetting and drying transitions of polymer globules attached to the wall. In addition, it is shown that …

Quantitative Biology::BiomoleculesPhase transitionPolymers and PlasticsChemistryCrystallization of polymersOrganic ChemistryThermodynamicsCoil-globule transitionCondensed Matter PhysicsRandom coilCondensed Matter::Soft Condensed MatterMean field theoryThermodynamic limitMaterials ChemistryVirial expansionScalingMacromolecular Symposia
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Monte Carlo simulation of block copolymers

2000

Monte Carlo simulations deal with crudely simplified but well-defined models and have the advantage that they treat the statistical thermodynamics of the considered model exactly (apart from statistical errors and problems due to finite size effects). Therefore, these simulations are well suited to test various approximate theories of block copolymer ordering, e.g. the self-consistent field theory. Recent examples of this approach include the study of block copolymer ordering at melt surfaces and confinement effects in thin films, adsorption of block copolymers at interfaces of unmixed homopolymer blends, the phase behavior of ternary mixtures of two homopolymers and their block copolymer, …

Quantitative Biology::BiomoleculesPolymers and PlasticsChemistryMonte Carlo methodSurfaces and InterfacesMicelleCondensed Matter::Soft Condensed MatterColloid and Surface ChemistryPhase (matter)CopolymerField theory (psychology)Self-assemblyStatistical physicsPhysical and Theoretical ChemistryTernary operationConfined space
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PREDICTION OF THERMODYNAMIC INSTABILITIES OF PROTEIN SOLUTIONS FROM SIMPLE PROTEIN-PROTEIN INTERACTIONS

2013

Statistical thermodynamics of protein solutions is often studied in terms of simple, microscopic models of particles interacting via pairwise potentials. Such modelling can reproduce the short range structure of protein solutions at equilibrium and predict thermodynamics instabilities of these systems. We introduce a square well model of effective protein-protein interaction that embeds the solvent's action. We modify an existing model [45] by considering a well depth having an explicit dependence on temperature, i.e. an explicit free energy character, thus encompassing the statistically relevant configurations of solvent molecules around proteins. We choose protein solutions exhibiting dem…

Quantitative Biology::BiomoleculesSpinodalRange (particle radiation)Liquid–liquid demixingSpinodal lineChemistrySolvent mediated protein-protein interactionEnthalpyProtein solutionGeneral Physics and AstronomyThermodynamicsEntropy driven phase transitionLiquid-liquid demixingAction (physics)Settore FIS/07 - Fisica Applicata(Beni Culturali Ambientali Biol.e Medicin)Solvent mediated protein–protein interactionProtein–protein interactionSpinodal lines SW potential free energy parametrizationPhysics and Astronomy (all)Mean field theoryFinite potential wellMoleculePhysical and Theoretical ChemistrySquare well potential
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New Trends in Quantum Electrodynamics

2020

Quantum electrodynamics is one of the most successful physical theories, and its predictions agree with experimental results with exceptional accuracy. Nowadays, after several decades since its introduction, quantum electrodynamics is still a very active research field from both the theoretical and experimental points of view. The aim of this Special Issue is to present recent relevant advances in quantum electrodynamics, both theoretical and experimental, and related aspects in quantum field theory and quantum optics.

Quantum Field TheoryQuantum Electrodynamic
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Supersymmetry parameter analysis: SPA convention and project.

2005

18 páginas, 6 figuras, 12 tablas.-- et al.

Quantum Field TheoryScheme (programming language)Particle physicsCold dark matterExperimental PhysicsPhysics and Astronomy (miscellaneous)FOS: Physical sciences01 natural scienceslaw.inventionSet (abstract data type)High Energy Physics - Phenomenology (hep-ph)law0103 physical sciencesddc:530010306 general physicsColliderEngineering (miscellaneous)Particle Physics - PhenomenologyNuclear Physicscomputer.programming_languagePhysicsLarge Hadron Collider010308 nuclear & particles physicsFísicaObservableSupersymmetryPhysics beyond the Standard ModelHigh Energy Physics - Phenomenology[PHYS.HPHE]Physics [physics]/High Energy Physics - Phenomenology [hep-ph]Production (computer science)computerElementary Particles
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Low-energy symmetries of QCD and the structure of the nucleon

2015

Abstract We present some updated results regarding the scalar and electromagnetic structure of the nucleon obtained by the relativistic formulation of chiral effective field theory with baryons. We compare them with previous determinations available in the literature, and show their relevance for searches of physics beyond the standard model in the low energy frontier.

Quantum chromodynamicsBaryonPhysicsNuclear and High Energy PhysicsParticle physicsPhysics beyond the Standard ModelNuclear TheoryDark matterScalar (mathematics)Effective field theoryNucleonLamb shiftNuclear and Particle Physics Proceedings
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ElectromagneticN→N*(1535)transition in the relativistic constituent-quark model

1990

We study a light-cone model of the nucleon and the ${S}_{11}(1535)$ resonance which provides a relativistic generalization of the constituent-quark model in the nonperturbative low-${Q}^{2}$ regime. The two parameters of the model, namely, the size parameter $\ensuremath{\alpha}$ and the constituent-quark mass ${m}_{q}\ensuremath{\approx}300$ MeV, are fixed by the axial form factor. We find good agreement for the electromagnetic form factors of the nucleon up to ${Q}^{2}\ensuremath{\approx}1\ensuremath{-}2$ Ge${\mathrm{V}}^{2}$. All static properties of the nucleon, except for the neutron charge radius, are reproduced within 10%. In addition, we show that the electromagnetic current of the …

Quantum chromodynamicsBaryonPhysicsParticle physicsCharge radiusNuclear TheoryHadronQuark modelForm factor (quantum field theory)Elementary particleNuclear ExperimentNucleonPhysical Review D
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