6,561 research outputs found
Electromagnetic Form Factors and the Hypercentral CQM
New results about the electromagnetic form factors of the nucleon are
obtained with a semirelativistic version of the hypercentral constituent quark
model (hCQM) and a relativistic current. The complex structure of the
constituent quarks is taken into account implicitly by means of
phenomenological constituent quark form factors. We obtain a detailed
reproduction of the experimental data up to , moreover our findings
about constituent quark root mean square radii are of the same order than the
recent ones obtained analyzing the proton structure functions.Comment: 11 pages, 4 figure
Telling the spin of the "Higgs boson" at the LHC
We assume that the Higgs boson or a possible resonance---playing its role in
strongly interacting models of electroweak symmetry breaking---has been
discovered at the LHC and propose a search strategy to determine its spin based
on two simple asymmetries in the ZZ, W+W- and t t-bar decays channels. We
consider some benchmark values for its mass (in the interval from 182 GeV/c^2
to 1 TeV/c^2) and discuss the relative advantages of the different decay
processes. A full analysis, including the background, is given. For a
center-of-mass energy of 14 TeV, we find that the lowest integrated luminosity
required to discriminate between the different spins is, depending on the
process and the resonance mass, between 40 fb^{-1} and 250 fb^{-1}.Comment: 17 pages, 3 figure
Electromagnetic Form Factors and the hCQM
We briefly report on results about the electromagnetic form factors of the
nucleon obtained with different models and then we concentrate our attention on
recent results obtained with the hypercentral constituent quark model (hCQM).Comment: 12 pages, 5 figures, Invited talk at 27th Symposium on Nuclear
Physics, Taxco, Guerrero, Mexico, 5-8 Jan 200
Covariant Impulse Approximation for the study of the internal structure of composite particles
We present a brief review on the Impulse Approximation method to study
processes of scattering off composite particles. We first construct the model
in a non-relativistic fashion that enables us to extend the model to a
covariant Impulse Approximation, which is needed for the study of high momentum
transfer processes.Comment: 8 Page
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