Generalized sum rules of the nucleon in the CQM
Abstract
The sum rules serve a powerful tool to study the nucleon structure by providing a bridge between the statical properties of the nucleon (such as electrical charge, and magnetic moment) and the dynamical properties (e.g. the transition amplitudes to excited states) in a wide range of energy and momentum transfer Q2. We study the generalized sum rules of the nucleon in the framework of the constituent quark model. We use two different CQM, the one with the hypercentral potential hccqm1, hccqm2, hccqm3, and with the harmonic oscillator potential KI, both with only few parameters fixed to the baryonic spectrum. We confront our results to the model independent sum rules and to the predictions of the phenomenological MAID MAID model and find that in all the cases considered, in the intermediate Q2 range (0.2-1.5 GeV2), both CQM models provide a good description of the sum rules on the neutron.
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