Mixing angles and electromagnetic properties of ground state pseudoscalar and vector meson nonets in the light-cone quark model
arXiv:hep-ph/9711450 · doi:10.1103/PhysRevD.59.074015
Abstract
Both the mass spectra and the wave functions of the light pseudoscalar ($Ï,K,η,η'$) and vector($Ï,K^{*},Ï,Ï$) mesons are analyzed within the framework of the light-cone constituent quark model. A gaussian radial wave function is used as a trial function of the variational principle for a QCD motivated Hamiltonian which includes not only the Coulomb plus confining potential but also the hyperfine interaction to obtain the correct $Ï-Ï$ splitting. For the confining potential, we use (1) harmonic oscillator potential and (2) linear potential and compare the numerical results for these two cases. The mixing angles of $Ï-Ï$ and $η-η'$ are predicted and various physical observables such as decay constants, charge radii, and radiative decay rates $etc.$ are calculated. Our numerical results in two cases (1) and (2) are overall not much different from each other and have a good agreement with the available experimental data. use (1) harmonic oscillator potential and (2) linear potential and compare the numerical results for these two cases. The mixing angles of $Ï-Ï$ and $η-η'$ are predicted and various physical observables such as decay constants, charge radii, and radiative decay rates $etc.$ are calculated. Our numerical results in two cases (1) and (2) are overall not much different from each other and have a good agreement with the available experimental data.
22 pages, 10 figures, to appear in Phys. Rev. D