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The three-dimensional quark-gluon structure of the nucleon

The theoretical study and the experimental exploration of the internal structure of protons and neutrons (nucleons) have recently entered a new phase. Over the past 40 years an understanding of nucleons in terms of elementary constituents (partons, i.e. quarks and gluons) has gradually and successfully emerged. Much has been learned about the nucleon in terms of its “one-dimensional” parton structure, relevant when partons are assumed to move co-linearly with their parent nucleon, and encoded in the so-called parton distribution functions (PDFs). In the last few years theoretical breakthroughs have extended this simple picture, leading to new concepts, like the “Generalized Parton Distributions” (GPDs) and the “Transverse Momentum Dependent parton distributions” (TMDs). These concepts help to address long-standing questions concerning the motion of quarks and gluons inside the nucleon, their orbital motion, their spin and their spatial distribution. Dedicated experiments, either running or proposed, and a related intense theoretical activity have made, and keep making, enormous progress towards a true 3-dimensional unraveling of the nucleon structure. Our aim is to continue our participation in this program of collaboration.

Publication:

[1] Quark intrinsic motion and the link between TMDs and PDFs in covariant approach. A.V. Efremov, P. Schweitzer, O.V. Teryaev, P. Zavada, . Dec 2009. 5pp. arXiv:0912.3380 [hep-ph]
[2] Generalized Cahn effect and parton 3D motion in covariant Approach. P. Zavada, 10pp. arXiv:0908.2316 [hep-ph]. Presented at Workshop on Transverse Partonic Structure of Hadrons (TPSH 2009), Yerevan, Armenia, 21-26 Jun 2009.
[3] Transverse momentum dependent distribution functions in a covariant parton model approach with quark orbital motion, A. V. Efremov, P. Schweitzer, O. V. Teryaev and P. Zavada, Phys. Rev. D 80, 014021 (2009).
[4] The pretzelosity distribution function and intrinsic motion of the constituents in nucleon. A. V. Efremov, P. Schweitzer, O. V. Teryaev and P. Zavada, AIP Conf. Proc. 1149, 547 (2009) [arXiv:0812.3246 [hep-ph]]. Presented at 18th International Spin Physics Symposium (SPIN 2008), Charlottesville, Virginia, 6-11 Oct 2008
[5] Parton distribution functions and quark orbital motion. P. Zavada, Eur. Phys. J. C 52, 121 (2007).
[6] Transversity and intrinsic motion of the constituents. A. V. Efremov, O. V. Teryaev and P. Zavada, Phys. Rev. D 70, 054018 (2004).
[7] Proton spin structure and valence quarks. P. Zavada, Phys. Rev. D 67, 014019 (2003).
[8] Spin structure functions and intrinsic motion of the constituents . P. Zavada, Phys. Rev. D 65, 054040 (2002).
[9] Proton spin structure in the rest frame. P. Zavada, Phys. Rev. D 56, 5834 (1997).
[10] The structure functions and parton momenta distribution in the hadron rest system. P. Zavada, Phys. Rev. D 55, 4290 (1997).

Researcher:
Petr Závada

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