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Bound state equation in the Wilson loop approach with minimal surfaces

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arxiv hep-ph/0305021 v1 pith:BWKC44HF submitted 2003-05-02 hep-ph

Bound state equation in the Wilson loop approach with minimal surfaces

classification hep-ph
keywords boundquarkstateequationinteractionlinearloopminimal
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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The large-distance dynamics in quarkonium systems is investigated, in the large N limit, through the saturation of Wilson loop averages by minimal surfaces. Using a representation for the quark propagator in the presence of the external gluon field based on the use of path-ordered phase factors, a covariant three-dimensional bound state equation of the Breit-Salpeter type is derived, in which the interaction potentials are provided by the energy-momentum vector of the straight segment joining the quark to the antiquark and carrying a constant linear energy density, equal to the string tension. The interaction potentials are confining and reduce to the linear vector potential in the static case and receive, for moving quarks, contributions from the moments of inertia of the straight segment. The self-energy parts of the quark propagators induce spontaneous breakdown of chiral symmetry with a mechanism identical to that of the exchange of one Coulomb-gluon. The nonrelativistic and ultrarelativistic properties of the bound state spectrum are studied.

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