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Probing Novel Scalar and Tensor Interactions from (Ultra)Cold Neutrons to the LHC

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arxiv 1110.6448 v1 pith:HWTZ3RVO submitted 2011-10-28 hep-ph hep-latnucl-th

Probing Novel Scalar and Tensor Interactions from (Ultra)Cold Neutrons to the LHC

classification hep-ph hep-latnucl-th
keywords interactionsscalartensordecayneutronbetachargecurrently
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Scalar and tensor interactions were once competitors to the now well-established V-A structure of the Standard Model weak interactions. We revisit these interactions and survey constraints from low-energy probes (neutron, nuclear, and pion decays) as well as collider searches. Currently, the most stringent limit on scalar and tensor interactions arise from 0+ -> 0+ nuclear decays and the radiative pion decay pi -> e nu gamma, respectively. For the future, we find that upcoming neutron beta decay and LHC measurements will compete in setting the most stringent bounds. For neutron beta decay, we demonstrate the importance of lattice computations of the neutron-to-proton matrix elements to setting limits on these interactions, and provide the first lattice estimate of the scalar charge and a new average of existing results for the tensor charge. Data taken at the LHC is currently probing these interactions at the 10^-2 level (relative to the standard weak interactions), with the potential to reach the 10^-3 level. We show that, with some theoretical assumptions, the discovery of a charged spin-0 resonance decaying to an electron and missing energy implies a lower limit on the strength of scalar interactions probed at low energy.

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Cited by 2 Pith papers

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    Radiative corrections applied to MINERvA antineutrino data yield updated values for the nucleon axial-vector form factor G_A and axial radius.