Your search keyword '"Gonzalez Hernandez, J. Osvaldo"' showing total 7 results

1. Chiral Odd GPDs

Author

Goldstein Gary R., Gonzalez Hernandez J. Osvaldo, and Liuti Simonetta

Subjects

Physics, QC1-999

Abstract

Nucleon spin structure, transversity and the tensor charge are of central importance to understanding the role of QCD in hadronic physics. A new approach to measuring orbital angular momenta of quarks in the proton via twist 3 GPDs is shown. The “flexible parametrization” of chiral even GPDs is reviewed and its transformation into the chiral odd sector is discussed. The resulting parametrization is applied to recent data on π0 and η electroproduction.

Published

2015

2. OBSERVATIONS OF CHIRAL ODD GPDs AND THEIR IMPLICATIONS.

Author

GOLDSTEIN, GARY R., LIUTI, SIMONETTA, and GONZALEZ-HERNANDEZ, J. OSVALDO

Published

2014

3. Interpretation of the flavor dependence of nucleon form factors in a generalized parton distribution model.

Author

Gonzalez-Hernandez, J. Osvaldo, Liuti, Simonetta, Goldstein, Gary R., and Kathuri, Kunal

Subjects

*PARTICLES (Nuclear physics), *ELECTROMAGNETIC form factors, *MOMENTUM transfer, *QUARKS, *PARTONS, *ANGULAR momentum (Mechanics)

Abstract

We give an interpretation of the u and d quarks contributions to the nucleon electromagnetic form factors for values of the four-momentum transfer in the multi-GeV region where flavor separated data have been recently made available. The data show, in particular, a suppression of d quarks with respect to u quarks at large momentum transfer. This trend can be explained using a reggeized diquark model calculation of generalized parton distributions, thus providing a correlation between momentum and coordinate spaces, both of which are necessary to interpret the partonic substructure of the form factors. We extend our discussion to the second moments of generalized parton distributions which are believed to contribute to partonic angular momentum. [ABSTRACT FROM AUTHOR]

Published

2013

4. GENERALIZED PARTON DISTRIBUTIONS IN THE CHIRAL ODD SECTOR AND THEIR ROLE IN NEUTRAL MESON ELECTROPRODUCTION.

Author

GOLDSTEIN, GARY R., LIUTI, SIMONETTA, and GONZALEZ-HERNANDEZ, J. OSVALDO

Published

2012

5. RELATIONS BETWEEN TRANSVERSE MOMENTUM DISTRIBUTIONS AND CHIRAL ODD GENERALIZED PARTON DISTRIBUTIONS.

Author

LIUTI, SIMONETTA, GOLDSTEIN, GARY R., GONZALEZ HERNANDEZ, J. OSVALDO, and KATHURIA, KUNAL

Published

2012

6. Flexible parametrization of generalized parton distributions from deeply virtual Compton scattering observables.

Author

Goldstein, Gary R., Gonzalez Hernandez, J. Osvaldo, and Liuti, Simonetta

Subjects

*PARTICLES (Nuclear physics), *NUCLEAR physics, *PIONS, *FORM factor (Nuclear physics), *COLLISIONS (Nuclear physics)

Abstract

We present a physically motivated parametrization of the chiral-even generalized parton distributions in the nonsinglet sector obtained from a global analysis using a set of available experimental data. Our analysis is valid in the kinematical region of intermediate Bjorken x and for Q² in the multi-GeV region which is accessible at present and currently planned facilities. Relevant data included in our fit are from the nucleon elastic form factor measurements and from deep inelastic scattering experiments. Additional information provided by lattice calculations of the higher moments of generalized parton distributions is also considered. Recently extracted observables from deeply virtual Compton scattering on the nucleon are reproduced by our fit. [ABSTRACT FROM AUTHOR]

Published

2011

7. Extraction of generalized parton distribution observables from deeply virtual electron proton scattering experiments.

Author

Kriesten, Brandon, Meyer, Andrew, Liuti, Simonetta, Diaz, Liliet Calero, Keller, Dustin, Goldstein, Gary R., and Gonzalez-Hernandez, J. Osvaldo

Subjects

*PROTON scattering, *ELECTRON scattering, *PARTONS, *ANGULAR momentum (Mechanics), *COMPTON scattering, *PARTICLES (Nuclear physics)

Abstract

We provide the general expression of the cross section for exclusive deeply virtual photon electroproduction from a spin-1/2 target using current parametrizations of the off-forward correlation function in a nucleon for different beam and target polarization configurations up to twist-three accuracy. All contributions to the cross section including deeply virtual Compton scattering, the Bethe-Heitler process, and their interference, are described within a helicity-amplitude-based framework which is also relativistically covariant and readily applicable to both the laboratory frame and in a collider kinematic setting. Our formalism renders a clear physical interpretation of the various components of the cross section by making a connection with the known characteristic structure of the electron scattering coincidence reactions. In particular, we focus on the total angular momentum, Jz, and on the orbital angular momentum, Lz. On one side, we uncover an avenue to a precise extraction of Jz, given by the combination of generalized parton distributions, H+E, through a generalization of the Rosenbluth separation method used in elastic electron proton scattering. On the other side, we single out for the first time, the twist-three angular modulations of the cross section that are sensitive to Lz. The proposed generalized Rosenbluth technique adds constraints and can be extended to additional observables relevant to the mapping of the three-dimensional structure of the nucleon. [ABSTRACT FROM AUTHOR]

Published

2020