Rare charm c u\, dineutrino null tests for e+e--machines

Abstract

Rare | c|=| u|=1 transitions into dineutrinos are strongly GIM-suppressed and constitute excellent null tests of the standard model. While branching ratios of D P \, , D P+ P- \, , P=π, K, baryonic c+ p \, , and c+ + \, and inclusive D X decays are experimentally unconstrained, signals of new physics can be just around the corner. We provide model-independent upper limits on branching ratios reaching few × 10-5 in the most general case of arbitrary lepton flavor structure, 10-5 for scenarios with charged lepton conservation and few × 10-6 assuming lepton universality. We also give upper limits in Z and leptoquark models. The presence of light right-handed neutrinos can affect these limits, a possibility that can occur for lepton number violation at a TeV, and that can be excluded with an improved bound on B(D0 invisibles) at the level of 10-6, about two orders of magnitude better than the present one. Signatures of c u modes contain missing energy and are suited for experimental searches at e+ e--facilities, such as BES III, Belle II and future e+ e--colliders, such as the FCC-ee running at the Z.