Journal of High Energy Physics, ISSN 1126-6708, 12/2016, Volume 2016, Issue 12, pp. 1 - 48

We present the analytic computation of all the planar master integrals which contribute to the two-loop scattering amplitudes for Higgs→ 3 partons, with full...

Scattering Amplitudes | Perturbative QCD | Quantum Physics | Quantum Field Theories, String Theory | Classical and Quantum Gravitation, Relativity Theory | Physics | Elementary Particles, Quantum Field Theory | LARGE TRANSVERSE-MOMENTUM | GRAPH | FIESTA | DIFFERENTIAL-EQUATIONS | POLYLOGARITHMS | BOSON PRODUCTION | ASYMPTOTIC EXPANSIONS | FEYNMAN DIAGRAMS | HADRONIC COLLISIONS | MULTILOOP NUMERICAL-CALCULATIONS | PHYSICS, PARTICLES & FIELDS | Quarks | Resveratrol | Phenomenology | High Energy Physics | Nuclear and High Energy Physics

Scattering Amplitudes | Perturbative QCD | Quantum Physics | Quantum Field Theories, String Theory | Classical and Quantum Gravitation, Relativity Theory | Physics | Elementary Particles, Quantum Field Theory | LARGE TRANSVERSE-MOMENTUM | GRAPH | FIESTA | DIFFERENTIAL-EQUATIONS | POLYLOGARITHMS | BOSON PRODUCTION | ASYMPTOTIC EXPANSIONS | FEYNMAN DIAGRAMS | HADRONIC COLLISIONS | MULTILOOP NUMERICAL-CALCULATIONS | PHYSICS, PARTICLES & FIELDS | Quarks | Resveratrol | Phenomenology | High Energy Physics | Nuclear and High Energy Physics

Journal Article

Journal of High Energy Physics, ISSN 1126-6708, 02/2008, Volume 2008, Issue 2, pp. 2 - 2

We construct a basis set of infra-red and/or collinearly divergent scalar oneloop integrals and give analytic formulas, for tadpole, bubble, triangle and box...

NLO computations | QCD | REDUCTION | SINGULARITIES | FEYNMAN DIAGRAMS | D-DIMENSIONS | BOX | AMPLITUDES | N-POINT INTEGRALS | COLLISIONS | PHYSICS, PARTICLES & FIELDS | Physics - High Energy Physics - Phenomenology

NLO computations | QCD | REDUCTION | SINGULARITIES | FEYNMAN DIAGRAMS | D-DIMENSIONS | BOX | AMPLITUDES | N-POINT INTEGRALS | COLLISIONS | PHYSICS, PARTICLES & FIELDS | Physics - High Energy Physics - Phenomenology

Journal Article

Chemical Physics, ISSN 0301-0104, 07/2017, Volume 491, pp. 1 - 10

In this paper we are introducing a new approach to calculate the classical transport collision integrals. The singularities (Glory, Rainbow and Orbiting) that...

Clenshaw-Curtis quadrature | Collision integrals | Scattering cross section | Orbiting singularity | Transport coefficient | STATES | PHYSICS, ATOMIC, MOLECULAR & CHEMICAL | CHEMISTRY, PHYSICAL | COEFFICIENTS | OXYGEN-ATOMS | DIFFUSION | DILUTE GAS | SCATTERING | Physics

Clenshaw-Curtis quadrature | Collision integrals | Scattering cross section | Orbiting singularity | Transport coefficient | STATES | PHYSICS, ATOMIC, MOLECULAR & CHEMICAL | CHEMISTRY, PHYSICAL | COEFFICIENTS | OXYGEN-ATOMS | DIFFUSION | DILUTE GAS | SCATTERING | Physics

Journal Article

SAE technical paper series, Volume 2013-01-0728.

In order to meet the growing requirements on vehicle safety, additional safety systems are usually integrated that then fulfill a certain function. The...

Architecture | Traffic management | Collision avoidance systems

Architecture | Traffic management | Collision avoidance systems

eJournal

SAE technical paper series, Volume 2013-01-0728.

In order to meet the growing requirements on vehicle safety, additional safety systems are usually integrated that then fulfill a certain function. The...

Architecture | Traffic management | Collision avoidance systems

Architecture | Traffic management | Collision avoidance systems

eJournal

Journal of Physics D: Applied Physics, ISSN 0022-3727, 12/2014, Volume 47, Issue 49, p. 495201

The transport coefficients (including electrical conductivity, viscosity and thermal conductivity) of SF6-Cu mixtures with copper proportions up to 50% are...

transport coefficients | SF6-Cu | collision integrals | THERMODYNAMIC PROPERTIES | PHYSICS, APPLIED | POTENTIALS | PLASMAS | GAS MIXTURES | ATMOSPHERES | ARGON | HYDROGEN | CONDUCTIVITY | EQUILIBRIUM | NITROGEN

transport coefficients | SF6-Cu | collision integrals | THERMODYNAMIC PROPERTIES | PHYSICS, APPLIED | POTENTIALS | PLASMAS | GAS MIXTURES | ATMOSPHERES | ARGON | HYDROGEN | CONDUCTIVITY | EQUILIBRIUM | NITROGEN

Journal Article

ACM Transactions on Graphics (TOG), ISSN 0730-0301, 11/2019, Volume 38, Issue 6, pp. 1 - 17

Computing the light attenuation between two given points is an essential yet expensive task in volumetric light transport simulation. Existing unbiased...

stochastic sampling | null scattering | participating media | Monte Carlo integration | null collision | transmittance

stochastic sampling | null scattering | participating media | Monte Carlo integration | null collision | transmittance

Journal Article

Journal of Computational Physics, ISSN 0021-9991, 09/2014, Volume 273, pp. 358 - 373

The inverse problem of parameterizing intermolecular potentials given macroscopic transport and thermodynamic data is addressed. Procedures are developed to...

Dilute noble gases | Collision integrals | Transport properties | Kinetic theory | SELF-DIFFUSION COEFFICIENT | TRANSPORT-PROPERTIES | APPROXIMATIONS | VISCOSITY | THERMAL-CONDUCTIVITY | PHYSICS, MATHEMATICAL | MIXTURES | COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS | EQUATION-OF-STATE | BOLTZMANN-EQUATION | FORCES | MOLECULAR-FIELDS | Thermodynamics | Algorithms | Analysis | Electric properties | Viscosity | Parametrization | Interpolation | Integrals | Argon | Krypton | Coefficients | Collision dynamics | SELF-DIFFUSION | CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS | CALCULATION METHODS | LENNARD-JONES POTENTIAL | CORRELATIONS | ALGORITHMS | COLLISION INTEGRALS | ACCURACY | ARGON | INTERPOLATION | NEON | TEMPERATURE DEPENDENCE | KRYPTON | THERMAL CONDUCTIVITY

Dilute noble gases | Collision integrals | Transport properties | Kinetic theory | SELF-DIFFUSION COEFFICIENT | TRANSPORT-PROPERTIES | APPROXIMATIONS | VISCOSITY | THERMAL-CONDUCTIVITY | PHYSICS, MATHEMATICAL | MIXTURES | COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS | EQUATION-OF-STATE | BOLTZMANN-EQUATION | FORCES | MOLECULAR-FIELDS | Thermodynamics | Algorithms | Analysis | Electric properties | Viscosity | Parametrization | Interpolation | Integrals | Argon | Krypton | Coefficients | Collision dynamics | SELF-DIFFUSION | CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS | CALCULATION METHODS | LENNARD-JONES POTENTIAL | CORRELATIONS | ALGORITHMS | COLLISION INTEGRALS | ACCURACY | ARGON | INTERPOLATION | NEON | TEMPERATURE DEPENDENCE | KRYPTON | THERMAL CONDUCTIVITY

Journal Article

The Journal of Chemical Physics, ISSN 0021-9606, 05/2016, Volume 144, Issue 18, p. 184301

State-to-state quantum dynamic calculations for the proton transfer reaction Ne + H2 + (v = 0–2, j = 0) are performed on the most accurate LZHH potential...

Potential energy | Time dependence | Forward scattering | Coriolis force | Integrals | Bias | Excitation | Cross sections | Collision dynamics

Potential energy | Time dependence | Forward scattering | Coriolis force | Integrals | Bias | Excitation | Cross sections | Collision dynamics

Journal Article

Journal of Chemical Physics, ISSN 0021-9606, 01/2017, Volume 146, Issue 1, p. 014302

The integral steric asymmetry for the inelastic scattering of NO(X) by a variety of collision partners was recorded using a crossed molecular beam apparatus....

Physical and Theoretical Chemistry | Physics and Astronomy(all) | NO-AR COLLISIONS | CHEMICAL-REACTIONS | ORIENTED METHYL-IODIDE | STATISTICAL-THEORY | POTENTIAL-ENERGY SURFACES | LOWER-BOUND STATES | PHYSICS, ATOMIC, MOLECULAR & CHEMICAL | DIFFERENTIAL CROSS-SECTIONS | CHEMISTRY, PHYSICAL | ATOM-MOLECULE COLLISIONS | VECTOR CORRELATION | REACTIVE SCATTERING | Potential energy | Rare gases | Collision dynamics | Coupling (molecular) | Manifolds | Asymmetry | Inelastic scattering | Mathematical analysis | Ionization | Integrals | Quantum mechanics | Molecular beams | Electric fields

Physical and Theoretical Chemistry | Physics and Astronomy(all) | NO-AR COLLISIONS | CHEMICAL-REACTIONS | ORIENTED METHYL-IODIDE | STATISTICAL-THEORY | POTENTIAL-ENERGY SURFACES | LOWER-BOUND STATES | PHYSICS, ATOMIC, MOLECULAR & CHEMICAL | DIFFERENTIAL CROSS-SECTIONS | CHEMISTRY, PHYSICAL | ATOM-MOLECULE COLLISIONS | VECTOR CORRELATION | REACTIVE SCATTERING | Potential energy | Rare gases | Collision dynamics | Coupling (molecular) | Manifolds | Asymmetry | Inelastic scattering | Mathematical analysis | Ionization | Integrals | Quantum mechanics | Molecular beams | Electric fields

Journal Article

Physical Chemistry Chemical Physics : PCCP, ISSN 1463-9076, 11/2017, Volume 19, Issue 43, pp. 2957 - 2967

By employing the sequential electric field pulsing scheme for vacuum ultraviolet (VUV) laser pulsed field ionization-photoion (PFI-PI) detection, we have...

Ionization | Integrals | Field ionization | Charge transfer | Vibrational states | Cross sections | Collision dynamics

Ionization | Integrals | Field ionization | Charge transfer | Vibrational states | Cross sections | Collision dynamics

Journal Article

Journal of High Energy Physics, ISSN 1126-6708, 5/2014, Volume 2014, Issue 5, pp. 1 - 28

We describe the calculation of all planar master integrals that are needed for the computation of NNLO QCD corrections to the production of two off-shell...

NLO Computations | QCD Phenomenology | Quantum Physics | Quantum Field Theories, String Theory | Classical and Quantum Gravitation, Relativity Theory | Physics | Elementary Particles, Quantum Field Theory | TOPOLOGIES | W+W | 4-POINT FUNCTIONS | PARTS | ASYMPTOTIC-EXPANSION | DIFFERENTIAL-EQUATIONS | FEYNMAN-INTEGRALS | ZZ PRODUCTION | JETS | AMPLITUDES | PHYSICS, PARTICLES & FIELDS | Hadrons | Integrals | Mathematical analysis | Collisions | Differential equations | Mathematical models | Vectors (mathematics) | Bosons

NLO Computations | QCD Phenomenology | Quantum Physics | Quantum Field Theories, String Theory | Classical and Quantum Gravitation, Relativity Theory | Physics | Elementary Particles, Quantum Field Theory | TOPOLOGIES | W+W | 4-POINT FUNCTIONS | PARTS | ASYMPTOTIC-EXPANSION | DIFFERENTIAL-EQUATIONS | FEYNMAN-INTEGRALS | ZZ PRODUCTION | JETS | AMPLITUDES | PHYSICS, PARTICLES & FIELDS | Hadrons | Integrals | Mathematical analysis | Collisions | Differential equations | Mathematical models | Vectors (mathematics) | Bosons

Journal Article

Astrophysical Journal, ISSN 0004-637X, 01/2017, Volume 834, Issue 2, p. 132

The resistance coefficients in the screened Coulomb potential of stellar plasma are evaluated to high accuracy. I have analyzed the possible singularities in...

stars: interiors | stars: abundances | diffusion | REVISED ABUNDANCES | THERMONUCLEAR REACTION-RATES | OF-STATE TABLES | COMPOSITION GRADIENTS | MODELS | ASTRONOMY & ASTROPHYSICS | STELLAR PLASMAS | ELEMENT DIFFUSION | SOLAR CONVECTION ZONE | OPACITIES | HELIUM | Physics - Solar and Stellar Astrophysics | COLLISION INTEGRALS | COMPARATIVE EVALUATIONS | COLLISIONS | ACCURACY | INTERPOLATION | HERMITE POLYNOMIALS | PLASMA | ASTROPHYSICS, COSMOLOGY AND ASTRONOMY | STRONG-COUPLING MODEL | STARS | DIFFUSION | STAR MODELS | COULOMB FIELD | SCATTERING

stars: interiors | stars: abundances | diffusion | REVISED ABUNDANCES | THERMONUCLEAR REACTION-RATES | OF-STATE TABLES | COMPOSITION GRADIENTS | MODELS | ASTRONOMY & ASTROPHYSICS | STELLAR PLASMAS | ELEMENT DIFFUSION | SOLAR CONVECTION ZONE | OPACITIES | HELIUM | Physics - Solar and Stellar Astrophysics | COLLISION INTEGRALS | COMPARATIVE EVALUATIONS | COLLISIONS | ACCURACY | INTERPOLATION | HERMITE POLYNOMIALS | PLASMA | ASTROPHYSICS, COSMOLOGY AND ASTRONOMY | STRONG-COUPLING MODEL | STARS | DIFFUSION | STAR MODELS | COULOMB FIELD | SCATTERING

Journal Article

Journal of High Energy Physics, ISSN 1126-6708, 9/2014, Volume 2014, Issue 9, pp. 1 - 18

We present the calculation of all non-planar master integrals that are needed to describe production of two off-shell vector bosons in collisions of two...

NLO Computations | Hadronic Colliders | Quantum Physics | Quantum Field Theories, String Theory | Classical and Quantum Gravitation, Relativity Theory | Physics | Elementary Particles, Quantum Field Theory | FEYNMAN-INTEGRALS | W+W | ASYMPTOTIC-EXPANSION | REGIONS | DIFFERENTIAL-EQUATIONS | AMPLITUDES | NILO Computations | MOMENTA | PHYSICS, PARTICLES & FIELDS | Nuclear physics | Collisions (Nuclear physics) | Physics - High Energy Physics - Phenomenology | Phenomenology | High Energy Physics - Phenomenology | High Energy Physics | Nuclear and High Energy Physics | Nuclear Experiment

NLO Computations | Hadronic Colliders | Quantum Physics | Quantum Field Theories, String Theory | Classical and Quantum Gravitation, Relativity Theory | Physics | Elementary Particles, Quantum Field Theory | FEYNMAN-INTEGRALS | W+W | ASYMPTOTIC-EXPANSION | REGIONS | DIFFERENTIAL-EQUATIONS | AMPLITUDES | NILO Computations | MOMENTA | PHYSICS, PARTICLES & FIELDS | Nuclear physics | Collisions (Nuclear physics) | Physics - High Energy Physics - Phenomenology | Phenomenology | High Energy Physics - Phenomenology | High Energy Physics | Nuclear and High Energy Physics | Nuclear Experiment

Journal Article

Journal of High Energy Physics, ISSN 1126-6708, 2014, Volume 2014, Issue 5, p. 1

We describe the calculation of all planar master integrals that are needed for the computation of NNLO QCD corrections to the production of two off-shell...

NLO Computations | QCD Phenomenology | Nuclear physics | Collisions (Nuclear physics) | High Energy Physics - Phenomenology | Nuclear and High Energy Physics | High Energy Physics - Theory

NLO Computations | QCD Phenomenology | Nuclear physics | Collisions (Nuclear physics) | High Energy Physics - Phenomenology | Nuclear and High Energy Physics | High Energy Physics - Theory

Journal Article

Physics of Plasmas, ISSN 1070-664X, 03/2017, Volume 24, Issue 3

We describe a density-, momentum-, and energy-conserving discretization of the nonlinear Landau collision integral. The method is suitable for both the...

Finite element method | Conservation laws | Discretization | Integrals | Galerkin method | Collision dynamics

Finite element method | Conservation laws | Discretization | Integrals | Galerkin method | Collision dynamics

Journal Article

Physics of Plasmas, ISSN 1070-664X, 03/2017, Volume 24, Issue 3, p. 32121

We describe a density-, momentum-, and energy-conserving discretization of the nonlinear Landau collision integral. The method is suitable for both the...

FOKKER-PLANCK EQUATION | PHYSICS, FLUIDS & PLASMAS | Physics - Plasma Physics | Conservation of momentum | Polynomials | 70 PLASMA PHYSICS AND FUSION TECHNOLOGY | Plasma collisions | Galerkin methods | Tensor methods

FOKKER-PLANCK EQUATION | PHYSICS, FLUIDS & PLASMAS | Physics - Plasma Physics | Conservation of momentum | Polynomials | 70 PLASMA PHYSICS AND FUSION TECHNOLOGY | Plasma collisions | Galerkin methods | Tensor methods

Journal Article

Physics of Plasmas, ISSN 1070-664X, 06/2017, Volume 24, Issue 6

A detailed investigation on the neutral-neutral and neutral-ion collision integrals is reported for Y2O3-Ar plasma, an important system of functional material...

Plasma | Properties (attributes) | Integrals | Yttrium oxide | Charge transfer | Atomic collisions

Plasma | Properties (attributes) | Integrals | Yttrium oxide | Charge transfer | Atomic collisions

Journal Article

Physics of Plasmas, ISSN 1070-664X, 08/2018, Volume 25, Issue 8

The linearized Vlasov-Poisson system can be exactly solved using the G-transform, an integral transform introduced in Morrison and Pfirsch [Phys. Fluids B 4,...

Operators (mathematics) | Advection-diffusion equation | Advection | Landau damping | Kinetic equations | Mathematical analysis | Integral transforms | Drift | Hermite polynomials | Shielding | Plasmas | Collision dynamics

Operators (mathematics) | Advection-diffusion equation | Advection | Landau damping | Kinetic equations | Mathematical analysis | Integral transforms | Drift | Hermite polynomials | Shielding | Plasmas | Collision dynamics

Journal Article

The Journal of Chemical Physics, ISSN 0021-9606, 05/2018, Volume 148, Issue 20, p. 204305

We report absolute experimental integral cross sections (ICSs) for the electron impact excitation of 6 bands (Bands 0-V) of unresolved electronic-states in...

BATTERY | PSEUDOPOTENTIALS | IMPACT EXCITATION | TRANSPORT | PHYSICS, ATOMIC, MOLECULAR & CHEMICAL | CHEMISTRY, PHYSICAL | BIOMEDICAL APPLICATIONS | LOW-ENERGY-ELECTRON | METAL-FREE | ATMOSPHERE | COLLISIONS | MOLECULES | Quinones | Multichannel | Electron impact excitation | Ionization | Integrals | Elastic scattering | Excitation |

BATTERY | PSEUDOPOTENTIALS | IMPACT EXCITATION | TRANSPORT | PHYSICS, ATOMIC, MOLECULAR & CHEMICAL | CHEMISTRY, PHYSICAL | BIOMEDICAL APPLICATIONS | LOW-ENERGY-ELECTRON | METAL-FREE | ATMOSPHERE | COLLISIONS | MOLECULES | Quinones | Multichannel | Electron impact excitation | Ionization | Integrals | Elastic scattering | Excitation |