89 research outputs found
Improved alpha_s from Tau Decays
We present an update of the measurement of alpha_s(m_tau) from ALEPH tau
hadronic spectral functions. We report a study of the perturbative
prediction(s) showing that the fixed-order perturbation theory manifests
convergence problems not presented in the contour-improved calculation.
Potential systematic effects from quark-hadron duality violations are estimated
to be within the quoted systematic errors. The fit result is alpha_s(m_tau) =
0.344 +- 0.005 +- 0.007, where the first error is experimental and the second
theoretical. After evolution, the alpha_s(M_Z) determined from tau data is the
most precise one to date, in agreement with the corresponding NNNLO value
derived from Z decays.Comment: 4pages, 1 figure, Contribution to the proceedings of Moriond 2008,
QCD sessio
An iterative, dynamically stabilized method of data unfolding
We propose a new iterative unfolding method for experimental data, making use
of a regularization function. The use of this function allows one to build an
improved normalization procedure for Monte Carlo spectra, unbiased by the
presence of possible new structures in data. We are able to unfold, in a
dynamically stable way, data spectra which can be strongly affected by
fluctuations in the background subtraction and simultaneously reconstruct
structures which were not initially simulated. This method also allows one to
control the amount of correlations introduced between the bins of the unfolded
spectrum, when the transfers of events correcting the systematic detector
effects are performed.Comment: 23 pages, 16 figure
Measurement of hadronic cross sections at BABAR with ISR and implications for the muon (g-2)
The ISR method has been largely exploited by the BABAR experiment, for
measuring numerous channels of the cross section e+e- into hadrons. For the
pi+pi-(gamma) and K+K-(gamma) channels, BABAR has pioneered the method based on
the ratio between the hadronic mass spectra and the mu+mu-(gamma) one. This
method allows to cancel many systematic uncertainties in the ratio, hence the
precise measured cross sections. Many multihadronic channels have also been
studied using the ISR method, and cross sections have been published. These
experimental results have also been exploited for phenomenological studies,
like the determination of the hadronic contribution to the anomalous magnetic
moment of the muon (g-2)_mu.Comment: 10 pages, 3 figures. Contribution to the proceedings of the
PHOTON2013 conference. Talk presented on behalf of the BABAR collaboratio
An Iterative, Dynamically Stabilized(IDS) Method of Data Unfolding
We describe an iterative unfolding method for experimental data, making use
of a regularization function. The use of this function allows one to build an
improved normalization procedure for Monte Carlo spectra, unbiased by the
presence of possible new structures in data. We unfold, in a dynamically stable
way, data spectra which can be strongly affected by fluctuations in the
background subtraction and simultaneously reconstruct structures which were not
initially simulated.Comment: 5 pages, 2 figures, presented at PHYSTAT 2011, CERN, Geneva,
Switzerland, January 2011, to be published in a CERN Yellow Repor
The Current Status of g-2
Recently, important updates were made for the hadronic contribution to the
theoretical prediction of g-2. The isospin-breaking-corrections, needed in the
comparison of the two pion spectral functions from tau decays and e+e-
annihilations, were improved using new experimental and theoretical input. The
recently published BABAR data were included in the global average of e+e-
spectral functions. These data, as well as the ones from tau decays, were
combined using newly developed software, featuring improved data interpolation
and averaging, more accurate error propagation and systematic validation. The
discrepancy between the e+e- and the tau-based result is reduced from
previously 2.4 to 1.5 sigma. The full Standard Model prediction of g-2,
obtained using e+e- data, differs from the experimental value by 3.2 standard
deviations.Comment: Two figures remove
Comments on "An Update of the HLS Estimate of the Muon g-2"by M.Benayoun {\it et al.}, arXiv:1210.7184v3
In a recent paper \cite{benayoun} M.Benayoun {\it et al.} use a specific
model to compare results on the existing data for the cross section of the
process and state conclusions about the
inconsistency of the BABAR results with those from the other experiments. We
show that a direct model-independent comparison of the data at hand contradicts
this claim. Clear discrepancies with the results of Ref. \cite{benayoun} are
pointed out. As a consequence we do not believe that the lower value and the
smaller uncertainty obtained for the prediction of the muon magnetic anomaly
are reliable results.Comment: 7 pages,2 figures, comment
Inclusive Jet Production Measured with ATLAS and Constraints on PDFs
Inclusive jet and dijet double-differential cross sections have been measured
in proton-proton collisions at a centre-of-mass energy of 7 TeV using the ATLAS
detector at the LHC. The cross sections were measured using jets clustered with
the anti-kt algorithm. The measurements are performed in the jet rapidity range
|y| < 4.4, covering jet transverse momenta from 20 GeV to 1.5 TeV and dijet
invariant masses from 70 GeV to 5 TeV. The data are compared to expectations
based on next-to-leading order QCD calculations corrected for non-perturbative
effects, as well as to next-to-leading order Monte Carlo predictions. The data
test the theory in a new kinematic regime, and provide sensitivity to parton
distribution functions in a region where they are currently not well
constrained.Comment: 4 pages, 1 figure, on behalf of the ATLAS Collaboration. To be
published in the Proceedings of the XX International Workshop on Deep
Inelastic Scattering, University of Bonn, 26-30th March 201
Precision QCD Physics at the LHC
This review describes the current status of precision quantum chromodynamics (QCD) studies at the LHC. We introduce the main experimental and theoretical methods, and we discuss their cross-stimulated developments and recent advances. The different types of QCD observables that are measured at the LHC, including cross sections and event- and jet-level properties, for various final states, are summarized. Their relation to fundamental QCD dynamics and their impact on Standard Model parameter determinations are discussed using specific examples. The impact of QCD-related observables on direct and indirect searches for rare processes within and New Physics beyond the Standard Model is outlined
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