Relativistic bound states at Born level

Abstract

Theoretical and phenomenological studies indicate that the QCD coupling αs(Q2) freezes in the infrared. Hadrons may then be described by a perturbative expansion around "Born" states bound only by a confining potential. A linear potential results from the QCD equations of motion when Gauss' law for A0 is solved with Fμa Fμa ≠ 0 as boundary condition. The αs0 Born states are Poincar\'e covariant and can serve as in and out states of scattering amplitudes. Their Dirac-type wave functions include f f creation/annihilation effects giving sea-like partons at low xbj.