We present an analysis of the process e+e−→V∗→ππγ, where V=γ or V=Z boson, in the kinematical region where s, the c.m. energy of the e+e− pair, is large but much below the Z-pole. The subprocess V∗→ππγ can be described by the convolution of the hard scattering coefficient V→qqˉγ and the general distribution amplitude of two pions qqˉ→ππ. In the case of neutral pion production, V=γ is the dominant process, which can therefore be used to access the GPAs of the pion, especially their C-even parts. The γZ interference term provides an alternative approach to extract the weak mixing angle sinθW through measuring the helicity asymmetry in the process e+e−→π0π0γ. In the case of charged pion pair production, the Bremsstrahlung process dominates and its interference with e+e−→γ⋆→π+π−γ can be applied to study the process γ⋆→ππγ at the amplitude level.
@article{arxiv.hep-ph/0603151,
title = {Pion pair production in $e^+e^-$ annihilation},
author = {Zhun Lu and Ivan Schmidt},
journal= {arXiv preprint arXiv:hep-ph/0603151},
year = {2014}
}
Comments
Figure added, version to appear in Physical Review D