Null test BSM searches with rare charm baryon decays

Abstract

Rare c = u =1 processes uniquely probe flavor in the Standard Model and beyond from the up-type quark sector. Opportunities to search for BSM physics in charm arise from the severe GIM suppression which kills SM contributions to leptonic axial-vector contributions and suppresses CP violation. Semileptonic decays of charmed hadrons offer a variety of clean null test observables, featuring new physics effects which are even enhanced by resonance contributions. In particular, angular observables in three- and self-analyzing four-body baryon decays, such as c p +- and c++( pπ0)+-, c00\,( p π-)+- and c00\,( 0 π0)+- disentangle possible new physics effects in electromagnetic dipole couplings C7() and (axial-)vector 4-fermion ones C()9\,(10). There is sensitivity to BSM couplings as small as 0.01.