0000000000143105

AUTHOR

Marco Stratmann

0000-0001-7125-8701

showing 3 related works from this author

Global analysis of fragmentation functions for eta mesons

2011

Fragmentation functions for eta mesons are extracted at next-to-leading order accuracy of QCD in a global analysis of data taken in electron-positron annihilation and proton-proton scattering experiments. The obtained parametrization is in good agreement with all data sets analyzed and can be utilized, for instance, in future studies of double-spin asymmetries for single-inclusive eta production. The Lagrange multiplier technique is used to estimate the uncertainties of the fragmentation functions and to assess the role of the different data sets in constraining them.

Nuclear and High Energy PhysicsParticle physicsMesonCiencias FísicasElectron–positron annihilationHadronFOS: Physical sciencesElementary particle//purl.org/becyt/ford/1 [https]symbols.namesakeHigh Energy Physics - Phenomenology (hep-ph)Fragmentation FunctionsNuclear ExperimentQuantum chromodynamicsPhysicsAnnihilation//purl.org/becyt/ford/1.3 [https]QcdEtaAstronomíaHigh Energy Physics - PhenomenologyLagrange multiplierData analysissymbolsHigh Energy Physics::ExperimentCIENCIAS NATURALES Y EXACTASHadronization
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Prospects for charged current deep-inelastic scattering off polarized nucleons at a future electron-ion collider

2013

We present a detailed phenomenological study of charged-current-mediated deep-inelastic scattering off longitudinally polarized nucleons at a future Electron-Ion Collider. A new version of the event generator package DJANGOH, extended by capabilities to handle processes with polarized nucleons, is introduced and used to simulate charged current deep-inelastic scattering including QED, QCD, and electroweak radiative effects. We carefully explore the range of validity and the accuracy of the Jacquet-Blondel method to reconstruct the relevant kinematic variables from the measured hadronic final state in charged current events, assuming realistic detector performance parameters. Finally, we est…

Quantum chromodynamicsPhysicsNuclear and High Energy PhysicsParticle physicsElectroweak interactionFOS: Physical sciencesPartonDeep inelastic scatteringlaw.inventionNuclear physicsHigh Energy Physics - PhenomenologyHigh Energy Physics - Phenomenology (hep-ph)lawHigh Energy Physics::ExperimentNucleonColliderCharged currentEvent generatorPhysical Review D
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Electron Ion Collider: The Next QCD Frontier - Understanding the glue that binds us all

2016

This White Paper presents the science case of an Electron-Ion Collider (EIC), focused on the structure and interactions of gluon-dominated matter, with the intent to articulate it to the broader nuclear science community. It was commissioned by the managements of Brookhaven National Laboratory (BNL) and Thomas Jefferson National Accelerator Facility (JLab) with the objective of presenting a summary of scientific opportunities and goals of the EIC as a follow-up to the 2007 NSAC Long Range plan. This document is a culmination of a community-wide effort in nuclear science following a series of workshops on EIC physics and, in particular, the focused ten-week program on "Gluons and quark sea a…

Nuclear and High Energy PhysicsParticle physicsNuclear Theorynucl-thhadrons gluons electron-ion colliderFOS: Physical sciencesnucl-ex01 natural sciencesAtomicLinear particle acceleratorgluonsHigh Energy Physics - Experimentlaw.inventionColor-glass condensateNuclear physicsNuclear Theory (nucl-th)High Energy Physics - Experiment (hep-ex)White paperHigh Energy Physics - Phenomenology (hep-ph)Particle and Plasma Physicslawquantum chromodynamics0103 physical sciencesNuclear Physics - ExperimentNuclearNuclear Experiment (nucl-ex)010306 general physicsColliderNuclear ExperimentQuantum chromodynamicsPhysics010308 nuclear & particles physicshep-exMolecularelectron-ion colliderParticle acceleratorhep-phNuclear & Particles PhysicsNATURAL SCIENCES. Physics.GluonPRIRODNE ZNANOSTI. Fizika.High Energy Physics - PhenomenologyhadronsElectron-Ion Collider (EIC)Quark–gluon plasma
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