Quark orbital angular momentum as a chiral magnetic effect

Abstract

The flavor-nonsinglet (u - d) quark angular momentum (AM) in the proton is computed based on the effective spin-flavor dynamics emerging from chiral symmetry breaking by QCD instantons. The QCD AM operators are converted to effective spin-flavor operators expressing instanton-induced chiral interactions. A large negative orbital AM Lu - d arises as a ``chiral magnetic effect'' of the interaction of the quarks with the chiral mean field in the proton in the large-Nc limit. It cancels part of the large positive spin AM Su-d and reduces the total AM Ju-d = Lu-d + Su-d, in agreement with lattice QCD calculations.