Can a Nonstandard Invisible Pair Mimic the Michel Distribution?

Abstract

We ask whether a measured Michel distribution, apparently in excellent agreement with the Standard Model interpretation of the i j decay, could instead arise from a different invisible sector. Within a general low-energy effective field theory, we analyze lepton decays i j + X X for electrically neutral, color-singlet, mutually conjugate invisible pairs X X of spin up to 2, allowing (pseudo)scalar, (axial)vector, and antisymmetric tensor interactions in the lepton current, focusing on the massless limit relevant for exact degeneracies. We formulate a criterion for indistinguishability based on the full set of measurable differential distributions. Under these assumptions, besides the obvious spin 1/2 case, there is a unique nontrivial solution: a massless complex scalar pair coupled through a purely left-handed vector current exactly reproduces the standard Michel pattern, including its extensions to daughter-lepton polarization and radiative channels. All other cases studied here are distinguishable, in particular because higher-spin invisible pairs produce additional kinematic prefactors. These results isolate the only nonstandard and nontrivial invisible sector that can remain hidden in Michel-type lepton decay measurements.