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Simonov (State Research Center","submitted_at":"2015-09-23T11:44:20Z","abstract_excerpt":"The effective chiral Lagrangian in both nonlocal form $L_{ECCL}$ and standard local form $L_{ECL}$ are derived in QCD using the confining kernel, obtained in the vacuum correlator formalism.\n  As a result all coefficients of $L_{ECL}$ can be computed via $q\\bar q$ Green's functions.\n  In the $p^2$ order of $L_{ECL}$ one obtains GOR relations and quark decay constants $f_a$ are calculated $a=1,...8$, while in the $p^4$ order the coefficients $L_1, L_2, L_3,L_4, L_5, L_6$ are obtained in good agreement with the values given by data. 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A. Simonov (State Research Center","submitted_at":"2015-09-23T11:44:20Z","abstract_excerpt":"The effective chiral Lagrangian in both nonlocal form $L_{ECCL}$ and standard local form $L_{ECL}$ are derived in QCD using the confining kernel, obtained in the vacuum correlator formalism.\n  As a result all coefficients of $L_{ECL}$ can be computed via $q\\bar q$ Green's functions.\n  In the $p^2$ order of $L_{ECL}$ one obtains GOR relations and quark decay constants $f_a$ are calculated $a=1,...8$, while in the $p^4$ order the coefficients $L_1, L_2, L_3,L_4, L_5, L_6$ are obtained in good agreement with the values given by data. 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