A Nondiagonal Pair of Majorana Particles at e+e- Colliders

Abstract

We perform a comprehensive and model-independent analysis for characterizing the spin and dynamical structure of the production of a non-diagonal pair of Majorana particles with different masses and arbitrary spins, e-e+ X2 X1, followed by a sequential two-body decay, X2 Z X1, of the heavier particle X2 into a Z gauge boson and the lighter particle X1 escaping undetected at high-energy e+e- colliders. Standard leptonic Z-boson decays, Z -+ with =e or μ, are employed for precisely diagnosing the Z polarization influenced by the production and decay processes. Based on helicity formalism and Wick helicity rotation for describing the correlated production-decay amplitudes and distributions, we work out the implications on the amplitudes and distributions of discrete CP symmetry and the Majorana condition that two particles are their own anti-particles. For the sake of a concrete illustration, an example of this type in the minimal supersymmetric Standard Model is investigated in detail.