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Isospin breaking in the nucleon mass and the sensitivity of beta decays to new physics

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arxiv 1309.4434 v1 pith:WER2L5ND submitted 2013-09-17 hep-ph hep-latnucl-ex

Isospin breaking in the nucleon mass and the sensitivity of beta decays to new physics

classification hep-ph hep-latnucl-ex
keywords betadecaysinteractionsnon-standardnucleonboundsconsequencesdiscuss
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We discuss the consequences of the approximate conservation of the vector and axial currents for the hadronic matrix elements appearing in beta decay if non-standard interactions are present. In particular the isovector (pseudo)scalar charge g_S(P) of the nucleon can be related to the difference (sum) of the nucleon masses in the absence of electromagnetic effects. Using recent determinations of these quantities from phenomenological and lattice QCD studies we obtain the accurate values g_S=1.02(11) and g_P=349(9) in the MS-bar scheme at mu=2 GeV. The consequences for searches of non-standard scalar interactions in nuclear beta decays are studied, finding epsilon_S=0.0012(24) at 90%CL, which is significantly more stringent than current LHC bounds and previous low-energy bounds using less precise g_S values. We argue that our results could be rapidly improved with updated computations and the direct calculation of certain ratios in lattice QCD. Finally we discuss the pion-pole enhancement of g_P, which makes beta decays much more sensitive to non-standard pseudoscalar interactions than previously thought.

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