Physics – High Energy Physics – High Energy Physics - Phenomenology
Scientific paper
2007-07-13
Phys.Rev.D76:076007,2007
Physics
High Energy Physics
High Energy Physics - Phenomenology
Scientific paper
10.1103/PhysRevD.76.076007
In the framework of the instanton vacuum model we make expansion over the current mass m and number of colors N_c and evaluate ${\cal O}(1/N_c, m, m/N_c, m \ln m/N_c)$-corrections to the dynamical quark mass M, the quark condensate $<\bar qq>$, the pion mass M_\pi and decay constant F_\pi. There are several sources of these corrections: meson loops, finite size of the instanton distribution and the quark-quark "tensor" interaction terms. In contrast to the expectations, we found that numerically the 1/N_c-corrections to dynamical mass are large and mostly come from meson loops. As a consequence, we have large 1/N_c-corrections to all the other quantities. To provide the values of $F_\pi(m=0), \ave{\bar qq(m=0)}$ in agreement with \chiPT, we offer a new set of parameters \rho, R. Finally, we find the low-energy SU(2)_f chiral lagrangian constants $\bar l_3, \bar l_4$ in a rather good correspondence with the phenomenology.
Goeke Klaus
Musakhanov M. M.
Siddikov Marat
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