2006
DOI: 10.1016/j.nuclphysbps.2006.08.028
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A New Parameterization of the Nucleon Elastic Form Factors

Abstract: The nucleon elastic form factors are generally interpreted as a mapping of the charge and magnetic current distributions of the proton and neutron. New high Q 2 measurements have opened up fundamental questions about Gep that remain to be answered. This talk will summarize current developments surrounding the nucleon form factors and explain why they are important to neutrino physicists. New parameterizations of the nucleon form factors, suitable for use by neutrino physicists, will be introduced and discussed. Show more

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Cited by 292 publications
(355 citation statements)
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“…As shown in Fig. 9, the dipole parameterization yields the cross sections higher than the BBBA05 one [9] used in this article. The discrepancy at the QE peak is ∼3.2% for beam energy 350 MeV and ∼3.5% for 841 MeV.…”
Section: General Remarksmentioning
confidence: 81%
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“…As shown in Fig. 9, the dipole parameterization yields the cross sections higher than the BBBA05 one [9] used in this article. The discrepancy at the QE peak is ∼3.2% for beam energy 350 MeV and ∼3.5% for 841 MeV.…”
Section: General Remarksmentioning
confidence: 81%
“…The form factors F i, t = F i, t (q 2 ) are in turn expressed by the appropriate electric G e, t and magnetic G m, t form factors [9].…”
Section: A General Informationmentioning
confidence: 99%
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“…In order to take into account the fact that the target nucleon is in a nucleus, the relativistic Fermi gas (RFG) model by Smith and Moniz [27,28] is used. The model uses dipole axial form factors and the vector form factors derived from electron scattering experiments [29]. The default quasielastic axial mass, M QE A , is 1.21 GeV=c 2 and the default Fermi momenta for the two dominant target nuclei carbon and oxygen are 217 and 225 MeV=c, respectively.…”
Section: A Neutrino Interaction Modelmentioning
confidence: 99%