23,681 research outputs found

    Counting Form Factors of Twist-Two Operators

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    We present a simple method to count the number of hadronic form factors based on the partial wave formalism and crossing symmetry. In particular, we show that the number of independent nucleon form factors of spin-n, twist-2 operators (the vector current and energy-momentum tensor being special examples) is n+1. These generalized form factors define the generalized (off-forward) parton distributions that have been studied extensively in the recent literature. In proving this result, we also show how the J^{PC} rules for onium states arise in the helicity formalism.Comment: 7 pages, LaTeX (revtex

    Off-Forward Parton Distributions in 1+1 Dimensional QCD

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    We use two-dimensional QCD as a toy laboratory to study off-forward parton distributions (OFPDs) in a covariant field theory. Exact expressions (to leading order in 1/NC1/N_C) are presented for OFPDs in this model and are evaluated for some specific numerical examples. Special emphasis is put on comparing the x>ζx>\zeta and x<ζx<\zeta regimes as well as on analyzing the implications for the light-cone description of form factors.Comment: Revtex, 6 pages, 4 figure

    Quark Orbital-Angular-Momentum Distribution in the Nucleon

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    We introduce gauge-invariant quark and gluon angular momentum distributions after making a generalization of the angular momentum density operators. From the quark angular momentum distribution, we define the gauge-invariant and leading-twist quark {\it orbital} angular momentum distribution Lq(x)L_q(x). The latter can be extracted from data on the polarized and unpolarized quark distributions and the off-forward distribution E(x)E(x) in the forward limit. We comment upon the evolution equations obeyed by this as well as other orbital distributions considered in the literature.Comment: 8 pages, latex, no figures, minor corrections mad

    Leading Chiral Contributions to the Spin Structure of the Proton

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    The leading chiral contributions to the quark and gluon components of the proton spin are calculated using heavy-baryon chiral perturbation theory. Similar calculations are done for the moments of the generalized parton distributions relevant to the quark and gluon angular momentum densities. These results provide useful insight about the role of pions in the spin structure of the nucleon, and can serve as a guidance for extrapolating lattice QCD calculations at large quark masses to the chiral limit.Comment: 8 pages, 2 figures; a typo in Ref. 7 correcte

    Disentangling positivity constraints for generalized parton distributions

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    Positivity constraints are derived for the generalized parton distributions (GPDs) of spin-1/2 hadrons. The analysis covers the full set of eight twist-2 GPDs. Several new inequalities are obtained which constrain GPDs by various combinations of usual (forward) unpolarized and polarized parton distributions including the transversity distribution.Comment: 9 pages (REVTEX), typos correcte

    Nucleon-Quarkonium Elastic Scattering and the Gluon Contribution to Nucleon Spin

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    It is shown that the amplitude for the scattering of a heavy quarkonium system from a nucleon near threshold is completely determined by the fraction of angular momentum, as well as linear momentum, carried by gluons in the nucleon. A form for the quarkonium-nucleon non-relativistic potential is derived.Comment: 4 pages, no figures. Author's e-mail: [email protected]

    Reactor Fuel Fraction Information on the Antineutrino Anomaly

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    We analyzed the evolution data of the Daya Bay reactor neutrino experiment in terms of short-baseline active-sterile neutrino oscillations taking into account the theoretical uncertainties of the reactor antineutrino fluxes. We found that oscillations are disfavored at 2.6σ2.6\sigma with respect to a suppression of the 235U^{235}\text{U} reactor antineutrino flux and at 2.5σ2.5\sigma with respect to variations of the 235U^{235}\text{U} and 239Pu^{239}\text{Pu} fluxes. On the other hand, the analysis of the rates of the short-baseline reactor neutrino experiments favor active-sterile neutrino oscillations and disfavor the suppression of the 235U^{235}\text{U} flux at 3.1σ3.1\sigma and variations of the 235U^{235}\text{U} and 239Pu^{239}\text{Pu} fluxes at 2.8σ2.8\sigma. We also found that both the Daya Bay evolution data and the global rate data are well-fitted with composite hypotheses including variations of the 235U^{235}\text{U} or 239Pu^{239}\text{Pu} fluxes in addition to active-sterile neutrino oscillations. A combined analysis of the Daya Bay evolution data and the global rate data shows a slight preference for oscillations with respect to variations of the 235U^{235}\text{U} and 239Pu^{239}\text{Pu} fluxes. However, the best fits of the combined data are given by the composite models, with a preference for the model with an enhancement of the 239Pu^{239}\text{Pu} flux and relatively large oscillations.Comment: 9 page

    Pedagogic model for Deeply Virtual Compton Scattering with quark-hadron duality

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    We show how quark-hadron duality can emerge for valence spin averaged structure functions, and for the non-forward distributions of Deeply Virtual Compton Scattering. Novel factorisations of the non-forward amplitudes are proposed. Some implications for large angle scattering and deviations from the quark counting rules are illustrated.Comment: Version accepted by Phys. Rev.
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