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Transverse-Momentum Distributions and spherical symmetry Cédric Lorcé Mainz University Germany in collaboration with Barbara Pasquini Pavia University.

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Presentation on theme: "Transverse-Momentum Distributions and spherical symmetry Cédric Lorcé Mainz University Germany in collaboration with Barbara Pasquini Pavia University."— Presentation transcript:

1 Transverse-Momentum Distributions and spherical symmetry Cédric Lorcé Mainz University Germany in collaboration with Barbara Pasquini Pavia University Italy [Lorcé, Pasquini (in preparation)] 30 years of strong interactions Three-day meeting in honour of J. Cugnon and H.-J. Pirner Sol Cress, Spa, Belgium 6-8 April 2011

2 Outline Semi-inclusive DIS and TMDs Model relations Light-cone helicity and canonical spin Spherical symmetry

3 Semi-inclusive DIS SIDIS 2 ~Im [Collins (1993)] [Bacchetta & al. (2007)]

4 Transverse-Momentum Distributions TMDs Dirac matrix selects quark polarization TMDs parametrize the quark-quark correlator Quark density in momentum space

5 Transverse-Momentum Distributions Convenient to think in terms of effective polarization Light-cone helicity Quark polarization Nucleon polarization

6 ** * * * * Model relations Flavor-dependent Flavor-independent Linear relationsQuadratic relation Bag  QSM LCCQM S Diquark AV Diquark Cov. Parton Quark Target [Jaffe & Ji (1991), Signal (1997), Barone & al. (2002), Avakian & al. (2008-2010)] [Lorcé & Pasquini (2011)] [Pasquini & al. (2005-2008)] [Ma & al. (1996-2009), Jakob & al. (1997), Bacchetta & al. (2008)] [Ma & al. (1996-2009), Jakob & al. (1997)] [Bacchetta & al. (2008)] [Efremov & al. (2009)] [Meißner & al. (2007)] *=SU(6) * * * * * *

7 LC helicity and canonical spin Canonical boost Light-cone boost

8 LC helicity and canonical spin Bag Model,  QSM, LCCQM, Quark-Diquark Model (Ma) and Covariant Parton Model Common assumption :Quasi-free quarks (reduces to Melosh rotation in case of FREE quarks) LC helicity Canonical spin Wigner rotation

9 LC helicity and canonical spin LC helicityCanonical spin Nucleon polarization Quark polarization Nucleon polarization

10 Spherical symmetry Common assumption :Explicit or implicit rotational symmetry Bag Model,  QSM, LCCQM, Quark-Diquark Model (Ma) and Covariant Parton Model The probability does not depend on the direction of canonical polarization

11 2 + 2 =+ 22 = = 0 Spherical symmetry Axial symmetry about

12 2 =+ 22 = = 0 Spherical symmetry Axial symmetry about

13 Why do relations appear in models? = = - Axial symmetry about

14 Why do relations appear in models? Spherical symmetryAxial symmetries Bag Model,  QSM, LCCQM, Quark-Diquark (Ma) and Covariant Parton Models Not independent!

15 Summary If a model assumes Quasi-free partons Spherical symmetry in canonical spin basis then it automatically implies the relations

16 Backup

17 Why do relations appear in models? What about Quark-Diquark models of Jakob & al. and Bacchetta & al.? Quark and diquark (a priori) not independent WF defined directly in Front Form Scalar diquark (Yukawa) Axial-vector diquark Jakob & al.Bacchetta & al. LCWFs without explicit dependence satisfy flavor-independent relations! ~ Independent constituents? Spherical symmetry? Instant Form WFs?

18 Formalism Light-Cone Quark Model Chiral Quark-Soliton Model Bag Model Independent quarks LC helicity Canonical spin (Melosh rotation) S-waveP-wave S-waveP-wave

19 Formalism Assumption :  in instant form (automatic w/ spherical symmetry) More convenient to work in canonical spin basis

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