Leading large Nc contributions to Lepton Number Violating Meson Decays
Abstract
Lepton number violating meson decays, such as M1- M2+1-2-, provide constraints on d=9 L = 2 operators. RGE-improved bounds on the Wilson coefficients of these operators have been presented in the literature, taking into account perturbative QCD one-loop corrections and the corresponding operator mixing. Here, we present for the first time the contribution of connected diagrams to the hadronic matrix elements M2 | Oh | M1 . These diagrams, usually overlooked under the assumption that M2 | Oh | M1 M2 | Jq3 q4 | 0 × 0 |Jq1 q2 | M1 M2 | Jq3 q2 × Jq1 q4 | M1 , can give indeed a significant contribution to the matrix element. Including these connected diagrams is but the first step towards a full non-perturbative computation of the long-range QCD effects in these operators, that should be performed using lattice field theory techniques. However, connected diagrams represent the leading order in the 1/Nc expansion of the QCD non-perturbative effects and thus our work can be understood as a realistic, first approximation to a complete calculation of the long-range part of the matrix elements.
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