220 research outputs found
The Gribov Conception of Quantum Chromodynamics
A major contribution to the quest of constructing quantum dynamics of
non-Abelian fieds is due to V.N. Gribov. Perturbative approach to the colour
confinement, both in gluodynamics and the real world, was long considered
heretic but is gaining ground. We discuss Gribov's approach to the confinement
problem, centered around the role played by light quarks - the supercritical
light quark confinement scenario. We also review some recent developments that
are motivated, directly or indirectly, by his ideas.Comment: 60 pages, 6 figure
Next-to-Leading-Order Event Generators
We review the methods developed for combining the parton shower approximation
to QCD with fixed-order perturbation theory, in such a way as to achieve
next-to-leading-order (NLO) accuracy for inclusive observables. This has made
it possible to generate fully-simulated hadronic final states with the
precision and stability of NLO calculations. We explain the underlying theory
of the existing methods, MC@NLO and POWHEG, together with their similarities,
differences, achievements and limitations. For illustration we mainly compare
results on Higgs boson production at the LHC, with particular emphasis on the
residual uncertainties arising from the different treatment of effects beyond
NLO. We also briefly summarize the difference between these NLO + parton shower
methods and matrix-element + parton shower matching, and current efforts to
combine the two approaches.Comment: 27 pages, 20 figure
Consequences of t-channel unitarity for the interaction of real and virtual photons at high energies
We analyze the consequences of t-channel unitarity for photon cross sections
and show what assumptions are necessary to allow for the existence of new
singularities at for the and total
cross sections. For virtual photons, such singularities can in general be
present, but we show that, apart from the perturbative singularity associated
with , no new ingredient is needed to
reproduce the data from LEP and HERA, in the Regge region.Comment: 10 pages, LaTeX2e with kluwer.sty, 7 figures. Talk presented at the
Second International "Cetraro" Workshop & NATO Advanced Research Workshop
"Diffraction 2002", Alushta, Crimea, Ukraine, August 31 - September 6, 200
Compatibility of neutrino DIS data and global analyses of parton distribution functions
Neutrino\antineutrino deep inelastic scattering (DIS) data provide useful
constrains for the flavor decomposition in global fits of parton distribution
functions (PDF). The smallness of the cross-sections requires the use of
nuclear targets in the experimental setup. Understanding the nuclear
corrections is, for this reason, of utmost importance for a precise
determination of the PDFs. Here, we explore the nuclear effects in the
neutrino\antineutrino-nucleon DIS by comparing the NuTeV, CDHSW, and CHORUS
cross-sections to the predictions derived from the latest parton distribution
functions and their nuclear modifications. We obtain a good description of
these data and find no apparent disagreement between the nuclear effects in
neutrino DIS and those in charged lepton DIS. These results also indicate that
further improvements in the knowledge of the nuclear PDFs could be obtained by
a more extensive use of these sets of neutrino data.Comment: 16 pages, 8 figure
Z boson transverse momentum spectrum from the lepton angular distributions
In view of recent discussions concerning the possibly limiting energy
resolution systematics on the measurement of the Z boson transverse momentum
distribution at hadron colliders, we propose a novel measurement method based
on the angular distributions of the decay leptons. We also introduce a
phenomenological parametrization of the transverse momentum distribution that
adapts well to all currently available predictions, a useful tool to quantify
their differences.Comment: 12 pages, 6 figure
On Hierarchy and Equivalence of Relativistic Equations for Massive Fields
A non-canonical correspondence of the complete sets of solutions to the Dirac
and Klein-Gordon free equations in Minkowski space-time is established. This
allows for a novel viewpoint on the relationship of relativistic equations for
different spins and on the origin of spinor transformations. In particular,
starting from a solution to the Dirac equation, one obtains a chain of other
solutions to both Dirac and Klein-Gordon equations. A comparison with the
massless case is performed, and examples of non-trivial singular solutions are
presented. A generalization to Riemannian space-time and inclusion of
interactions are briefly discussed.Comment: 7 pages, twocolumn. Problem of construction the hierarchy of
solutions in the massive case reformulate
The QCD Coupling Constant
This paper presents a summary of the current status of determinations of the
strong coupling constant alpha_s. A detailed description of the definition,
scale dependence and inherent theoretical ambiguities is given. The various
physical processes that can be used to determine alpha_s are reviewed and
attention is given to the uncertainties, both theoretical and experimental.Comment: 56 page
Glauber theory of initial- and final-state interactions in (p,2p) scattering
We develop the Glauber theory description of initial- and final-state
interactions (IFSI) in quasielastic A(p,2p) scattering. We study the
IFSI-distortion effects both for the inclusive and exclusive conditions. In
inclusive reaction the important new effect is an interaction between the two
sets of the trajectories which enter the calculation of IFSI-distorted one-body
density matrix for inclusive (p,2p) scattering and are connected with
incoherent elastic rescatterings of the initial and final protons on spectator
nucleons. We demonstrate that IFSI-distortions of the missing momentum
distribution are large over the whole range of missing momentum both for
inclusive and exclusive reactions and affect in a crucial way the
interpretation of the BNL data on (p,2p) scattering. Our numerical results show
that in the region of missing momentum p_{m}\lsim 100-150 MeV/c the
incoherent IFSI increase nuclear transparency by 5-10\%. The incoherent IFSI
become dominant at p_{m}\gsim 200 MeV/c.Comment: Accepted in Z. Phys.A, Latex, 26 pages, uuencoded 9 figure
Inelastic Photoproduction off Nuclei: Gluon Enhancement or Double Color Exchange?
The nuclear enhancement observed in inelastic photoproduction of
should not be interpreted as evidence for an increased gluon density in nuclei.
The nuclear suppression of the production rate due to initial and final state
interactions is calculated and a novel two-step color exchange process is
proposed, which is able to explain the data.Comment: Latex file, 23 pages including 5 Postscript figure
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