Search results for "Reno"

showing 10 items of 1031 documents

Mass of the bottom quark from Upsilon(1S) at NNNLO: an update

2016

We update our perturbative determination of MSbar bottom quark mass mb(mb), by including the recently obtained four-loop coefficient in the relation between the pole and MSbar mass. First the renormalon subtracted (RS or RS') mass is determined from the known mass of the Upsilon(1S) meson, where we use the renormalon residue Nm obtained from the asymptotic behavior of the coefficient of the 3-loop static singlet potential. MSbar mass is then obtained using the 4-loop renormalon-free relation between the RS (RS') and MSbar mass. We argue that the effects of the charm quark mass are accounted for by effectively using Nf=3 in the mass relations. The extracted value is mb(mb) = 4222(40) MeV, wh…

PhysicsHistoryParticle physicsMeson010308 nuclear & particles physicsHigh Energy Physics::LatticeHigh Energy Physics::PhenomenologyFOS: Physical sciences01 natural sciencesBottom quarkRenormalonComputer Science ApplicationsEducationCharm quarkRenormalizationHigh Energy Physics - PhenomenologyHigh Energy Physics - Phenomenology (hep-ph)0103 physical sciences010306 general physicsJournal of Physics: Conference Series
researchProduct

Selected topics on Hadrons in Nuclei

2011

In this talk we report on selected topics on hadrons in nuclei. The first topic is the renormalization of the width of the $\Lambda(1520)$ in a nuclear medium. This is followed by a short update of the situation of the $\omega$ in the medium. The investigation of the properties of $\bar{K}$ in the nuclear medium from the study of the $(K_{flight},p)$ reaction is also addressed, as well as properties of X,Y,Z charmed and hidden charm resonances in a nuclear medium. Finally we address the novel issue of multimeson states.

PhysicsHistoryParticle physicsNuclear Theory010308 nuclear & particles physicsBar (music)HadronHigh Energy Physics::PhenomenologyNuclear TheoryFOS: Physical sciencesLambda01 natural sciencesComputer Science ApplicationsEducationRenormalizationNuclear Theory (nucl-th)0103 physical sciencesHigh Energy Physics::ExperimentCharm (quantum number)010306 general physicsNuclear Experiment
researchProduct

Top-quark mass measurements at LHC: a new approach

2013

We present a new method to measure the top-quark mass in high energetic hadron collisions at the LHC. We study the mass dependence of the production of top-quark pairs in association with an additional jet. The cross section of tt+1Jet production is sensitive to the top-quark mass since gluon radiation depends on the top-quark mass through threshold and cone effects. In particular we study the normalised tt +1Jet cross section differential in the invariant mass of the final state jets. We have investigated the sensitivity of the method together with the impact of various theoretical and experimental uncertainties. We find that the method has the potential to be competitive with existing met…

PhysicsHistoryTop quarkParticle physicsLarge Hadron ColliderHigh Energy Physics::LatticeHadronHigh Energy Physics::PhenomenologyJet (particle physics)530 PhysikComputer Science ApplicationsEducationGluonNuclear physicsRenormalizationCross section (physics)Invariant massHigh Energy Physics::Experimentddc:530
researchProduct

Application of the Density Matrix Renormalization Group in momentum space

2001

We investigate the application of the Density Matrix Renormalization Group (DMRG) to the Hubbard model in momentum-space. We treat the one-dimensional models with dispersion relations corresponding to nearest-neighbor hopping and $1/r$ hopping and the two-dimensional model with isotropic nearest-neighbor hopping. By comparing with the exact solutions for both one-dimensional models and with exact diagonalization in two dimensions, we first investigate the convergence of the ground-state energy. We find variational convergence of the energy with the number of states kept for all models and parameter sets. In contrast to the real-space algorithm, the accuracy becomes rapidly worse with increa…

PhysicsHubbard modelStrongly Correlated Electrons (cond-mat.str-el)Density matrix renormalization groupExtrapolationFOS: Physical sciencesPosition and momentum spaceSpinonCondensed Matter - Strongly Correlated ElectronsDistribution functionQuantum electrodynamicsDispersion relationCondensed Matter::Strongly Correlated ElectronsStatistical physicsCurse of dimensionality
researchProduct

Monte Carlo renormalization group methods

2014

PhysicsHybrid Monte CarloTricritical pointMonte Carlo methodDynamic Monte Carlo methodMonte Carlo method in statistical physicsIsing modelStatistical physicsRenormalization groupCritical exponent
researchProduct

Universality in Fragmentation

1999

Fragmentation of a two-dimensional brittle solid by impact and ``explosion,'' and a fluid by ``explosion'' are all shown to become critical. The critical points appear at a nonzero impact velocity, and at infinite explosion duration, respectively. Within the critical regimes, the fragment-size distributions satisfy a scaling form qualitatively similar to that of the cluster-size distribution of percolation, but they belong to another universality class. Energy balance arguments give a correlation length exponent that is exactly one-half of its percolation value. A single crack dominates fragmentation in the slow-fracture limit, as expected.

PhysicsImpact velocityBrittlenessFragmentation (mass spectrometry)ExponentEnergy balanceGeneral Physics and AstronomyStatistical physicsRenormalization groupScalingUniversality (dynamical systems)Physical Review Letters
researchProduct

Inflation, renormalization, and CMB anisotropies

2010

5 páginas.-- Trabajo presentado al Spanish Relativity Meeting (ERE 2009).-- El PDF es la versión pre-print (arXiv:1002.3914v1).

PhysicsInflation (cosmology)History010308 nuclear & particles physicsCosmic microwave backgroundScalar (mathematics)FOS: Physical sciencesObservableGeneral Relativity and Quantum Cosmology (gr-qc)01 natural sciencesGeneral Relativity and Quantum CosmologyComputer Science ApplicationsEducationMetric expansion of spaceRenormalizationRegularization (physics)0103 physical sciencesQuantum field theory010306 general physicsMathematical physics
researchProduct

On the renormalization of ultraviolet divergences in the inflationary angular power spectrum

2015

We revise the role of ultraviolet divergences of cosmological observables and the corresponding renormalization from a space-time perspective. We employ the two-point function of primordial perturbations generated during inflation to derive an analytic expression for the multipole coefficients Cl in the Sachs-Wolfe regime. We analyzethe ultraviolet behaviorand stress the fact that the standard result in the literature is equivalent to a renormalization of the two-point function at zeroth adiabatic order. We also argue that renormalization at second adiabatic order seems to be more appropriate from a physical point of view. This may change significantly the predictions for Cl, while maintain…

PhysicsInflation (cosmology)HistoryObservableAstrophysics::Cosmology and Extragalactic AstrophysicsFunction (mathematics)Scale invarianceComputer Science ApplicationsEducationRenormalizationZeroth law of thermodynamicsQuantum electrodynamicsMultipole expansionAdiabatic processJournal of Physics: Conference Series
researchProduct

Construction of the ground state in nonrelativistic QED by continuous flows

2006

AbstractFor a nonrelativistic hydrogen atom minimally coupled to the quantized radiation field we construct the ground state projection Pgs by a continuous approximation scheme as an alternative to the iteration scheme recently used by Fröhlich, Pizzo, and the first author [V. Bach, J. Fröhlich, A. Pizzo, Infrared-finite algorithms in QED: The groundstate of an atom interacting with the quantized radiation field, Comm. Math. Phys. (2006), doi: 10.1007/s00220-005-1478-3]. That is, we construct Pgs=limt→∞Pt as the limit of a continuously differentiable family (Pt)t⩾0 of ground state projections of infrared regularized Hamiltonians Ht. Using the ODE solved by this family of projections, we sho…

PhysicsIntegrable systemQEDApplied MathematicsGround stateOdeAtom (order theory)Spectral analysisRenormalization groupProjection (linear algebra)Fundamental theorem of calculusQuantum mechanicsLimit (mathematics)Ground stateRenormalization groupAnalysisJournal of Differential Equations
researchProduct

Effective Field Theory for Jet Processes

2015

Processes involving narrow jets receive perturbative corrections enhanced by logarithms of the jet opening angle and the ratio of the energies inside and outside the jets. Analyzing cone-jet processes in effective field theory, we find that in addition to soft and collinear fields their description requires degrees of freedom which are simultaneously soft and collinear to the jets. These collinear-soft particles can resolve individual collinear partons, leading to a complicated multi-Wilson-line structure of the associated operators at higher orders. Our effective field theory provides, for the first time, a factorization formula for a cone-jet process, which fully separates the physics at …

PhysicsJet (fluid)Wilson loop010308 nuclear & particles physicsAstrophysics::High Energy Astrophysical PhenomenaDegrees of freedom (physics and chemistry)FOS: Physical sciencesGeneral Physics and AstronomyPartonRenormalization group01 natural sciencesHigh Energy Physics - PhenomenologyHigh Energy Physics - Phenomenology (hep-ph)FactorizationQuantum electrodynamics0103 physical sciencesEffective field theoryHigh Energy Physics::ExperimentResummation010306 general physicsPhysical Review Letters
researchProduct