Abstract
We study the vector and axial-vector form factors of radiative kaon decay within the framework of the gauged nonlocal effective chiral action from the instanton vacuum, focusing on the effects of flavor SU(3) symmetry breaking. The general tendency of the results are rather similar to those of radiative pion decays: The nonlocal contributions make the results of the vector form factor increased by about 20%, whereas they reduce those of the axial-vector form factor by almost 50%. Suppressing the prefactors consisting of the kaon mass and the pion decay constant, we scrutinize how the kaon form factors undergo changes as the mass of the strange current quark is varied. Those related to the vector and second axial-vector form factors tend to decrease monotonically as the strange quark mass increases, whereas that for the axial-vector form factor decreases. When K→eνγ decay is considered, both the results of the vector and axial-vector form factors at the zero momentum transfer are in good agreement with the experimental data. The results are also compared with those from chiral perturbation theory to p6 order.
Highlights
Radiative kaon decay (Kl2γ) provides essential information on the structure of the kaon
The general tendency of the results are rather similar to those of radiative pion decays: The nonlocal contributions make the results of the vector form factor increased by about 20 %, whereas they reduce those of the axial-vector form factor by almost 50 %
A possible uncertainty may arise from the fact that we employ the dipole-type parametrization of F (k) defined in Eq (12) instead of the original form derived from the instanton vacuum
Summary
Radiative kaon decay (Kl2γ) provides essential information on the structure of the kaon. Though the structure of the radiative kaon form factors is very similar to that of the pion decay, the effects of flavor SU(3) symmetry breaking, which arises from the current mass of the strange quark, makes the kaon distinguished from the pion. Heintze et al [10] extracted the following results: |FV + FA| = 0.148 ± 0.010 and |FV − FA| < 0.49 in the standard notation [7], where FV and FA denote the vector and axial-vector form factors of the radiative kaon decay. We investigate the vector and axial-vector form factors for the radiative kaon decay within the framework of the gauged nonlocal effective chiral action (the gauged EχA) from the instanton vacuum [27,28,29,30,31,32,33], emphasizing the effects of the flavor SU(3) symmetry breaking. We concentrate on the derivation of the three form factors FV (q2), FA(q2), and RA(q2) within the gauged EχA
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