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A detailed analysis of the problems associated with the conserved U (1) axial-vector current in quark-gluon models is presented. It is shown that such models involve a light isoscalar pseudoscalar boson, with a mass less than 3m_. The existence of this boson would produce a strong off-shell variation in the 3 matrix element, thus invalidating the usual conclusions about the rate and energy dependence of this decay. Following Kogut and Susskind, it is proposed that the light Goldstone boson is actually a dipole, with positive- and negative-metric parts, which cancel in matrix elements of gluon-gauge-invariant operators but not in operators such as the U (1) current. It is shown that the masses of the observable pseudoscalar bosons and the decay rate are then just as they would be in a theory without the U (1) symmetry, and in fair agreement with experiment. The application of current algebra to theories with charmed quarks is briefly discussed.
Steven Weinberg (Sun,) studied this question.
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