Electromagnetic properties of ground and excited state pseudoscalar mesons
Abstract
The axial-vector Ward-Takahashi identity places constraints on particular properties of every pseudoscalar meson. For example, in the chiral limit all pseudoscalar mesons, except the Goldstone mode, decouple from the axial-vector current. Nevertheless, all neutral pseudoscalar mesons couple to two photons. The strength of the πn0 γ γ coupling, where n=0 denotes the Goldstone mode, is affected by the Abelian anomaly's continuum contribution. The effect is material for n ≠ 0. The γ* πn γ* transition form factor, Tπn(Q2), is nonzero for all n, and Tπn(Q2) ≈ (4π2/3) (fπn/Q2) at large Q2. For all pseudoscalars but the Goldstone mode, this leading contribution vanishes in the chiral limit. In this instance the ultraviolet power-law behaviour is 1/Q4 for n ≠ 0, and we find numerically Tπ1(Q2) (4π2/3) (-< q q>/Q4). This subleading power-law behaviour is always present. In general its coefficient is not simply related to fπn. The properties of n ≠ 0 pseudoscalar mesons are sensitive to the pointwise behaviour of the long-range piece of the interaction between light-quarks.
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