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Publication Date2016, Volume 662.
Conference Proceeding
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Journal of High Energy Physics, ISSN 1126-6708, 10/2017, Volume 2017, Issue 10, pp. 1 - 111
Relativistic quantum systems that admit scattering experiments are quantitatively described by effective field theories, where S-matrix kinematics and symmetry...
Scattering Amplitudes | Quantum Physics | Differential and Algebraic Geometry | Quantum Field Theories, String Theory | Effective Field Theories | Classical and Quantum Gravitation, Relativity Theory | Physics | Elementary Particles, Quantum Field Theory | HILBERT SERIES | SUPERGRAVITY | REPRESENTATIONS | INVARIANTS | QUANTUM FIELD THEORIES | PHENOMENOLOGICAL LAGRANGIANS | EXPANSION | FINITE-GROUPS | CHIRAL PERTURBATION-THEORY | TRANSFORMATIONS | PHYSICS, PARTICLES & FIELDS | Analysis | Algebra | Operators (mathematics) | Construction | Partitions | Pions | Mathematical analysis | Coding | Kinematics | Scalars | Equations of motion | Matrix methods | System effectiveness | Nuclear and particle physics. Atomic energy. Radioactivity | High Energy Physics - Phenomenology | High Energy Physics - Theory | PHYSICS OF ELEMENTARY PARTICLES AND FIELDS
Scattering Amplitudes | Quantum Physics | Differential and Algebraic Geometry | Quantum Field Theories, String Theory | Effective Field Theories | Classical and Quantum Gravitation, Relativity Theory | Physics | Elementary Particles, Quantum Field Theory | HILBERT SERIES | SUPERGRAVITY | REPRESENTATIONS | INVARIANTS | QUANTUM FIELD THEORIES | PHENOMENOLOGICAL LAGRANGIANS | EXPANSION | FINITE-GROUPS | CHIRAL PERTURBATION-THEORY | TRANSFORMATIONS | PHYSICS, PARTICLES & FIELDS | Analysis | Algebra | Operators (mathematics) | Construction | Partitions | Pions | Mathematical analysis | Coding | Kinematics | Scalars | Equations of motion | Matrix methods | System effectiveness | Nuclear and particle physics. Atomic energy. Radioactivity | High Energy Physics - Phenomenology | High Energy Physics - Theory | PHYSICS OF ELEMENTARY PARTICLES AND FIELDS
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Loading Rights2003, Applied optimization, ISBN 9781402076275, Volume 85, xi, 286
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Progress in Energy and Combustion Science, ISSN 0360-1285, 2010, Volume 36, Issue 2, pp. 168 - 259
Probability density function (PDF) methods offer compelling advantages for modeling chemically reacting turbulent flows. In particular, they provide an elegant...
Filtered density function method | Turbulent combustion modeling | Probability density function method | ENERGY & FUELS | FINITE-RATE CHEMISTRY | FOKKER-PLANCK EQUATIONS | GENERALIZED LANGEVIN MODEL | ENGINEERING, MECHANICAL | ENGINEERING, CHEMICAL | DIRECT NUMERICAL-SIMULATION | THERMODYNAMICS | LARGE-EDDY SIMULATION | STOCHASTIC LAGRANGIAN MODELS | COMPUTATIONAL FLUID-DYNAMICS | NITRIC-OXIDE FORMATION | MONTE-CARLO-SIMULATION | TRANSPORTED SCALAR PDF | Combustion | Algorithms | Mechanical engineering | Analysis | Methods | Radiation | Turbulence | Computational fluid dynamics | Mathematical analysis | Portable document format | Mathematical models | Probability density functions
Filtered density function method | Turbulent combustion modeling | Probability density function method | ENERGY & FUELS | FINITE-RATE CHEMISTRY | FOKKER-PLANCK EQUATIONS | GENERALIZED LANGEVIN MODEL | ENGINEERING, MECHANICAL | ENGINEERING, CHEMICAL | DIRECT NUMERICAL-SIMULATION | THERMODYNAMICS | LARGE-EDDY SIMULATION | STOCHASTIC LAGRANGIAN MODELS | COMPUTATIONAL FLUID-DYNAMICS | NITRIC-OXIDE FORMATION | MONTE-CARLO-SIMULATION | TRANSPORTED SCALAR PDF | Combustion | Algorithms | Mechanical engineering | Analysis | Methods | Radiation | Turbulence | Computational fluid dynamics | Mathematical analysis | Portable document format | Mathematical models | Probability density functions
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Loading RightsJournal of High Energy Physics, ISSN 1126-6708, 04/2016, Volume 2016, Issue 4, pp. 1 - 53
We evaluate one-loop partition functions of higher-spin fields in thermal flat space with angular potentials; this computation is performed in arbitrary...
Field Theories in Lower Dimensions | Field Theories in Higher Dimensions | Higher Spin Gravity | Higher Spin Symmetry | ALGEBRA | MASSLESS FIELDS | CLASSIFICATION | EXTENSION | LAGRANGIAN FORMULATION | UNITARY REPRESENTATIONS | ASYMPTOTIC SYMMETRIES | ARBITRARY SPIN | COADJOINT ORBITS | PHYSICS, PARTICLES & FIELDS | Algebra | Partitions | Construction | Asymptotic properties | Mathematical analysis | Mathematical models | Representations | Symmetry | Physics - High Energy Physics - Theory | Nuclear and High Energy Physics | High Energy Physics - Theory | Physique théorique et mathématique
Field Theories in Lower Dimensions | Field Theories in Higher Dimensions | Higher Spin Gravity | Higher Spin Symmetry | ALGEBRA | MASSLESS FIELDS | CLASSIFICATION | EXTENSION | LAGRANGIAN FORMULATION | UNITARY REPRESENTATIONS | ASYMPTOTIC SYMMETRIES | ARBITRARY SPIN | COADJOINT ORBITS | PHYSICS, PARTICLES & FIELDS | Algebra | Partitions | Construction | Asymptotic properties | Mathematical analysis | Mathematical models | Representations | Symmetry | Physics - High Energy Physics - Theory | Nuclear and High Energy Physics | High Energy Physics - Theory | Physique théorique et mathématique
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Loading RightsArchive for Rational Mechanics and Analysis, ISSN 0003-9527, 10/2017, Volume 226, Issue 1, pp. 243 - 302
In this paper we develop a geometric version of the Hamilton–Jacobi equation in the Poisson setting. Specifically, we “geometrize” what is usually called a...
Physics, general | Fluid- and Aerodynamics | Theoretical, Mathematical and Computational Physics | Complex Systems | Physics | Classical Mechanics | POISSON INTEGRATORS | MATHEMATICS, APPLIED | INTEGRABILITY | MECHANICS | REDUCTION | DYNAMICAL-SYSTEMS | SYMPLECTIC INTEGRATION | GROUPOIDS | AFFINE BUNDLES | LIE ALGEBROID STRUCTURES | LAGRANGIAN MECHANICS
Physics, general | Fluid- and Aerodynamics | Theoretical, Mathematical and Computational Physics | Complex Systems | Physics | Classical Mechanics | POISSON INTEGRATORS | MATHEMATICS, APPLIED | INTEGRABILITY | MECHANICS | REDUCTION | DYNAMICAL-SYSTEMS | SYMPLECTIC INTEGRATION | GROUPOIDS | AFFINE BUNDLES | LIE ALGEBROID STRUCTURES | LAGRANGIAN MECHANICS
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Loading RightsPhysical Review C - Nuclear Physics, ISSN 0556-2813, 12/2007, Volume 76, Issue 6
In this work we study the spectral functions of scalar mesons in one- and two-channel cases by using nonlocal interaction Lagrangian(s). When the propagators...
GLUEBALL | PARTICLES | CHROMODYNAMICS | PHYSICS, NUCLEAR | MODEL | MULTI-QUARK HADRONS | NUCLEAR-PHYSICS | NONET | RADIATIVE DECAYS | PI-SCATTERING | Physics - High Energy Physics - Phenomenology | PARTICLE DECAY | PARTICLE WIDTHS | KAONS | PHYSICS OF ELEMENTARY PARTICLES AND FIELDS | DISTRIBUTION | A0-980 MESONS | EVALUATION | F0-980 MESONS | BREIT-WIGNER FORMULA | SPECTRAL FUNCTIONS | LAGRANGIAN FUNCTION | PROPAGATOR
GLUEBALL | PARTICLES | CHROMODYNAMICS | PHYSICS, NUCLEAR | MODEL | MULTI-QUARK HADRONS | NUCLEAR-PHYSICS | NONET | RADIATIVE DECAYS | PI-SCATTERING | Physics - High Energy Physics - Phenomenology | PARTICLE DECAY | PARTICLE WIDTHS | KAONS | PHYSICS OF ELEMENTARY PARTICLES AND FIELDS | DISTRIBUTION | A0-980 MESONS | EVALUATION | F0-980 MESONS | BREIT-WIGNER FORMULA | SPECTRAL FUNCTIONS | LAGRANGIAN FUNCTION | PROPAGATOR
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Loading Rights06/2019, ISBN 9781786304360, 331
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Loading RightsInternational Journal of Multiphase Flow, ISSN 0301-9322, 01/2018, Volume 98, pp. 147 - 157
This paper presents an analytical approach to evaluate the volume integrals emerging during dispersed phase fraction computation in Lagrangian–Eulerian...
Unstructured grids | Lagrangian–Eulerian model | Polynomial filtering function | Dispersed phase fraction computation | MECHANICS | POLYHEDRA | LIQUID 2-PHASE FLOW | MULTIPHASE FLOWS | FLUIDIZED-BEDS | MODEL | SIMULATION | Lagrangian-Eulerian model
Unstructured grids | Lagrangian–Eulerian model | Polynomial filtering function | Dispersed phase fraction computation | MECHANICS | POLYHEDRA | LIQUID 2-PHASE FLOW | MULTIPHASE FLOWS | FLUIDIZED-BEDS | MODEL | SIMULATION | Lagrangian-Eulerian model
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Loading RightsPhysical Review C - Nuclear Physics, ISSN 0556-2813, 10/2013, Volume 88, Issue 4
We present calculations for symmetric nuclear matter using chiral nuclear interactions within the self-consistent Green's functions approach in the ladder...
EFFECTIVE-FIELD THEORY | CORRELATED-BASIS THEORY | LAGRANGIANS | GAS | SPECTRAL-FUNCTION | SYSTEMS | PHYSICS, NUCLEAR | SCATTERING | Physics - Nuclear Theory
EFFECTIVE-FIELD THEORY | CORRELATED-BASIS THEORY | LAGRANGIANS | GAS | SPECTRAL-FUNCTION | SYSTEMS | PHYSICS, NUCLEAR | SCATTERING | Physics - Nuclear Theory
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Loading RightsMathematical Programming, ISSN 0025-5610, 10/2013, Volume 141, Issue 1, pp. 349 - 382
We present in this paper alternating linearization algorithms based on an alternating direction augmented Lagrangian approach for minimizing the sum of two...
Alternating direction method | Primary 65K05 | Augmented Lagrangian method | Optimal gradient method | Variable splitting | Gauss-Seidel method | Theoretical, Mathematical and Computational Physics | Mathematics | Alternating linearization method | Mathematical Methods in Physics | Calculus of Variations and Optimal Control; Optimization | Mathematics of Computing | Convex optimization | 90C25 | Numerical Analysis | Peaceman-Rachford method | Secondary 68Q25 | Combinatorics | MATHEMATICS, APPLIED | SIGNAL RECOVERY | DECOMPOSITION | EQUATIONS | COMPUTER SCIENCE, SOFTWARE ENGINEERING | OPERATIONS RESEARCH & MANAGEMENT SCIENCE | MINIMIZATION | MONOTONE VARIATIONAL-INEQUALITIES | SPLITTING ALGORITHM | INVERSE PROBLEMS | CONSTRAINED OPTIMIZATION | SELECTION | OPERATORS | Methods | Management science | Algorithms | Studies | Splitting | Computation | Mathematical analysis | Mathematical models | Iterative methods | Optimization | Linearization
Alternating direction method | Primary 65K05 | Augmented Lagrangian method | Optimal gradient method | Variable splitting | Gauss-Seidel method | Theoretical, Mathematical and Computational Physics | Mathematics | Alternating linearization method | Mathematical Methods in Physics | Calculus of Variations and Optimal Control; Optimization | Mathematics of Computing | Convex optimization | 90C25 | Numerical Analysis | Peaceman-Rachford method | Secondary 68Q25 | Combinatorics | MATHEMATICS, APPLIED | SIGNAL RECOVERY | DECOMPOSITION | EQUATIONS | COMPUTER SCIENCE, SOFTWARE ENGINEERING | OPERATIONS RESEARCH & MANAGEMENT SCIENCE | MINIMIZATION | MONOTONE VARIATIONAL-INEQUALITIES | SPLITTING ALGORITHM | INVERSE PROBLEMS | CONSTRAINED OPTIMIZATION | SELECTION | OPERATORS | Methods | Management science | Algorithms | Studies | Splitting | Computation | Mathematical analysis | Mathematical models | Iterative methods | Optimization | Linearization
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Loading RightsJournal of High Energy Physics, ISSN 1126-6708, 4/2012, Volume 2012, Issue 4, pp. 1 - 76
In this work we construct an infinite class of four-point functions for massless higher-spin fields in flat space that are consistent with the gauge symmetry....
Space-Time Symmetries | Gauge Symmetry | Quantum Physics | Field Theories in Higher Dimensions | Quantum Field Theories, String Theory | Classical and Quantum Gravitation, Relativity Theory | Physics | Elementary Particles, Quantum Field Theory | Bosonic Strings | TENSIONLESS LIMIT | MASSLESS FIELDS | CONSISTENT EQUATIONS | GEOMETRIC EQUATIONS | CUBIC INTERACTION VERTICES | LAGRANGIAN FORMULATION | STRING THEORY | BRST APPROACH | ARBITRARY SPIN | GAUGE-FIELDS | PHYSICS, PARTICLES & FIELDS
Space-Time Symmetries | Gauge Symmetry | Quantum Physics | Field Theories in Higher Dimensions | Quantum Field Theories, String Theory | Classical and Quantum Gravitation, Relativity Theory | Physics | Elementary Particles, Quantum Field Theory | Bosonic Strings | TENSIONLESS LIMIT | MASSLESS FIELDS | CONSISTENT EQUATIONS | GEOMETRIC EQUATIONS | CUBIC INTERACTION VERTICES | LAGRANGIAN FORMULATION | STRING THEORY | BRST APPROACH | ARBITRARY SPIN | GAUGE-FIELDS | PHYSICS, PARTICLES & FIELDS
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