Phase Difference Between the Electromagnetic and Strong Amplitudes for psi(2S) and J/psi Decays into Pairs of Pseudoscalar Mesons

Abstract

Using the data for 24.5x106 psi(2S) produced in e+e- annihilations at sqrts=3686 MeV at the CESR-c e+e- collider and 8.6x106 J/psi produced in the decay psi(2S)->pi+pi-J/psi, the branching fractions for psi(2S) and J/psi decays to pairs of pseudoscalar mesons, pi+pi-, K+K-, and KS KL, have been measured using the CLEO-c detector. We obtain branching fractions Br(psi(2S)->pi+pi-)=(7.6+-2.5+-0.6)x10-6, Br(psi(2S)->K+K-)=(74.8+-2.3+-3.9)x10-6, Br(psi(2S)->KS KL)=(52.8+-2.5+-3.4)x10-6, and Br(J/psi->pi+pi-)=(1.47+-0.13+-0.13)x10-4, Br(J/psi->K+K-)=(2.86+-0.09+-0.19)x10-4, Br(J/psi+-KS KL)=(2.62+-0.15+-0.14)x10-4, where the first errors are statistical and the second errors are systematic. The phase differences between the amplitudes for electromagnetic and strong decays of psi(2S) and J/psi to 0-+ pseudoscalar pairs are determined by a Monte Carlo method to be δ(psi(2S)PP=(110.5+16.0-9.5)o and δ(J/psi)PP=(73.5+5.0-4.5)o. The difference between the two is δ = δ(psi(2S))PP-δ(J/psi)PP =(37.0+16.5-10.5)o.