The rho -> gamma pi and omega -> gamma pi decays in quark-model approach and estimation of coupling for pion emission by quark

Abstract

In the framework of the relativistic and gauge invariant spectral integral technique, we calculate radiative decays rho(770)-> gamma pi(140) and omega(780)-> gamma pi(140) supposing all mesons (pi, rho and omega) to be quark-antiquark states. The q anti-q wave functions found for mesons and photon lead to a reasonably good description of data ((exp) γπ=68 30 keV, (exp)0γπ0=77 28 keV, (exp)ωγπ0=776 45 keV) that makes it possible to estimate the coupling for the bremsstrahlung emission of pion by quarks gπ gπ (u d π). We have found two values for the pion bremsstrahlung coupling: |gπ|=16.7 0.3 +0.1-2.3 (Solution I) and |gπ|=3.0 0.3 +0.1-2.1 (Solution II). Within SU(6)-symmetry for nucleons, Solution I gives us for pi NN coupling the value 16.4 gπ NN2/(4π) 23.2 that is in qualitative agreement with the pi N scattering data, gπ NN2/(4π) 14. For excited states, we have estimated the partial widths in Solution I as follows: (2S γπ) 10 - 130 keV, (2S0 γπ) 10 -130 keV, (ω2S γπ) 60 - 1080 keV. The large uncertainties emphasise the necessity to carry out measurements of the meson radiative processes in the region of large masses.