Relativistic pionic effects in quasielastic electron scattering

Amaro, J. E.; Bárbaro, M. B.; Caballero, J. A.; Donnelly, T. W.; Molinari, A.

doi:10.1016/s0375-9474(01)01253-2

Cited by 30 publications

(85 citation statements)

References 41 publications

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“…Similar effects were also found at higher momentum transfers using a relativistic Fermi gas (RFG) model [5,6]. The same trend is confirmed by the results of the present study for q = 1 GeV/c, as shown in the upper panel of Fig.…”

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confidence: 91%

“…An exhaustive analysis of (e, e ) world data demonstrated the scaling at energy transfers ω below the quasielastic (QE) peak [1,2], namely the independence of the reduced cross sections on the momentum transfer (first-kind scaling) and on the nuclear target (second-kind scaling) when plotted versus the appropriate scaling variable. It is well known that at energies above the QE peak scaling is violated in the transverse (T ) channel by effects beyond the impulse approximation: inelastic scattering [3,4], correlations, and meson-exchange currents (MEC) in both the one-particle one-hole (1p-1h) and two-particle two-hole (2p-2h) sectors [5][6][7][8].In contrast, the available data for the longitudinal (L) response are compatible with scaling throughout the QE region and permitted [9] the extraction of a phenomenological scaling function f L . In recent work [10][11][12] it was shown that only a few models [the relativistic mean field (RMF), the semirelativistic (SR) approach with Dirac-equation-based (DEB) and a "BCS-like" model] are capable of reproducing the detailed shape of f L , while other models fail to reproduce the long tail appearing at high ω. Theses models effectively account for the major ingredients needed to describe the (e, e ) responses for intermediate-to-high momentum transfers, namely relativistic effects and an appropriate description of the effective final-state interactions (FSI).…”

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Meson-exchange currents and final-state interactions in quasielastic electron scattering at high momentum transfers

et al. 2010

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The effects of meson-exchange currents (MEC) are computed for the one-particle one-hole transverse response function for finite nuclei at high momentum transfers q in the region of the quasi-elastic peak. A semirelativistic shell model is used for the one-particle-emission (e, e ) reaction. Relativistic effects are included using relativistic kinematics, performing a semirelativistic expansion of the current operators, and using the Dirac-equation-based (DEB) form of the relativistic mean-field potential for the final states. It is found that final-state interactions (FSI) produce an important enhancement of the MEC in the high-energy tail of the response function for q 1 GeV/c. The combined effect of MEC and FSI goes away when other models of the FSI, not based on the DEB potential, are employed. In recent years much of the emphasis in studies of inclusive (e, e ) scattering was placed on investigations of the scaling properties of the cross section and on the possibility of predicting neutrino cross sections assuming the universality of the scaling function for electromagnetic and weak interactions. An exhaustive analysis of (e, e ) world data demonstrated the scaling at energy transfers ω below the quasielastic (QE) peak [1,2], namely the independence of the reduced cross sections on the momentum transfer (first-kind scaling) and on the nuclear target (second-kind scaling) when plotted versus the appropriate scaling variable. It is well known that at energies above the QE peak scaling is violated in the transverse (T ) channel by effects beyond the impulse approximation: inelastic scattering [3,4], correlations, and meson-exchange currents (MEC) in both the one-particle one-hole (1p-1h) and two-particle two-hole (2p-2h) sectors [5][6][7][8].In contrast, the available data for the longitudinal (L) response are compatible with scaling throughout the QE region and permitted [9] the extraction of a phenomenological scaling function f L . In recent work [10][11][12] it was shown that only a few models [the relativistic mean field (RMF), the semirelativistic (SR) approach with Dirac-equation-based (DEB) and a "BCS-like" model] are capable of reproducing the detailed shape of f L , while other models fail to reproduce the long tail appearing at high ω. Theses models effectively account for the major ingredients needed to describe the (e, e ) responses for intermediate-to-high momentum transfers, namely relativistic effects and an appropriate description of the effective final-state interactions (FSI).Approximate treatments of these two ingredients are also possible using SR models, which have the advantage of permitting the use of standard nonrelativistic techniques when correctly extrapolated to high values of q. In this article we use the approach of Refs. [11,13] where a specific SR expansion of the electroweak single-nucleon current was used in a continuum shell-model description of electron and neutrino inclusive QE scattering from closed-shell nuclei. In the model the (nonrelativistic) hole states are taken to...

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confidence: 91%

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confidence: 99%

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confidence: 99%

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Meson-exchange currents and final-state interactions in quasielastic electron scattering at high momentum transfers

et al. 2010

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“…The symbol χ specifies neutrino-induced reactions (χ = +) or antineutrinoinduced reactions (χ = −), and the term σ 0 depends on the Fermi constant and the Cabibbo angle (see [13] for its explicit expression). The kinematic factors v K andv K come solely from the electromagnetic and weak leptonic tensors, respectively, and their explicit expressions can be found in [4,8,13]. The electromagnetic R K and weakR K response functions contain the whole dependence on the nuclear vertex coupling and are expressed by taking the appropriate components of the nuclear tensor [4,8,13].…”

Section: Inclusive Quasielastic Lepton Scattering Formalism: the mentioning

confidence: 99%

“…The kinematic factors v K andv K come solely from the electromagnetic and weak leptonic tensors, respectively, and their explicit expressions can be found in [4,8,13]. The electromagnetic R K and weakR K response functions contain the whole dependence on the nuclear vertex coupling and are expressed by taking the appropriate components of the nuclear tensor [4,8,13]. This involves the matrix elements of the virtual photon or charged boson interaction with the nuclear electromagnetic or weak current.…”

Section: Inclusive Quasielastic Lepton Scattering Formalism: the mentioning

confidence: 99%

General study of superscaling in quasielastic(e,e')and(ν,μ

Caballero

2006

Phys. Rev. C

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The phenomenon of superscaling for quasielastic lepton induced reactions at energies of a few GeV is investigated within the framework of the relativistic impulse approximation. A global analysis of quasielastic inclusive electron and charged-current neutrino scattering reactions on nuclei is presented. Scaling and superscaling properties are shown to emerge from both types of processes. The crucial role played by final state interactions is evaluated by using different approaches. The asymmetric shape presented by the experimental scaling function, with a long tail in the region of positive values of the scaling variable, is reproduced when the interaction in the final state between the knockout nucleon and the residual nucleus is described within the relativistic mean field approach. The impact of gauge ambiguities and off-shell effects in the scaling function is also analyzed.

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Effective Lagrangian Approach to pion photoproduction from the nucleon

2006

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We present a pion photoproduction model on the free nucleon based on an Effective Lagrangian Approach (ELA) which includes the nucleon resonances ($\Delta(1232)$, N(1440), N(1520), N(1535), $\Delta (1620)$, N(1650), and $\Delta (1700)$), in addition to Born and vector meson exchange terms. The model incorporates a new theoretical treatment of spin-3/2 resonances, first introduced by Pascalutsa, avoiding pathologies present in previous models. Other main features of the model are chiral symmetry, gauge invariance, and crossing symmetry. We use the model combined with modern optimization techniques to assess the parameters of the nucleon resonances on the basis of world data on electromagnetic multipoles. We present results for electromagnetic multipoles, differential cross sections, asymmetries, and total cross sections for all one pion photoproduction processes on free nucleons. We find overall agreement with data from threshold up to 1 GeV in laboratory frame.Comment: Misprints corrected. 60 pages. 33 figures.5 tables. Accepted for publication in Annals of Physics (NY

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Relativistic pionic effects in quasielastic electron scattering

Cited by 30 publications

References 41 publications

Meson-exchange currents and final-state interactions in quasielastic electron scattering at high momentum transfers

Meson-exchange currents and final-state interactions in quasielastic electron scattering at high momentum transfers

General study of superscaling in quasielastic(e,e')and(ν,μ

Effective Lagrangian Approach to pion photoproduction from the nucleon

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