Transverse Orbital Angular Momentum in the Proton
Abstract
Using the equations of motion of QCD and Lorentz invariance relations, we show a new, more direct way of obtaining the decomposition of the proton's quark transverse angular momentum into its spin and orbital components. The new decomposition can be understood as a twist-three relation, with the quark transverse spin described by the parton distribution gT. We find that the orbital component can be expressed in terms of a moment in the quark transverse momentum, kT, of the generalized transverse momentum-dependent distribution F12, or alternatively in terms of the twist-three generalized parton distributions H2T and E2T.
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