Light-meson orbital excitations in the QCD string approach
Abstract
In the framework of the QCD string approach it is shown that the spin-averaged masses M(nL) of all low-lying light mesons are well described using the string tension σ as the only parameter. The Regge slope α'L and the intercept αL(0) of the Regge L-trajectory for M(nL) are calculated analytically and turn out to be α'L = 0.80 GeV-2 (for L ≤ 4) and αL(0) = -0.34, in good agreement with the experimental data: α'L exp = 0.81 0.01 GeV-2, αL exp(0) = -0.30 0.02. To obtain this strong agreement with the data the nonperturbative quark self-energy contributions to the meson masses must be taken into account, which appeared to be large and negative for small values of L, and are even for larger values of L important for a close fit. From the present analysis of the meson spectra the restriction αs ≤ 0.40 on the strong coupling is required.
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