Singularities in the single lepton energy spectrum for precise measuring mass and spin of Dark Matter particles at the e+e- Linear Collider

Abstract

We consider models in which stability of Dark Matter particles D is ensured by the conservation of the new quantum number, called D-parity here. Our models contain also charged D-odd particle D. Here I propose the method for precision measuring masses and spin of D-particles via the study of energy distribution of single lepton (e or μ) in the process D+D- DDW+W- with the observable states dijet + lepton (μ or e) + nothing. To determine precisely masses of D and D, it is sufficient to measure the singular points in the lepton energy distributions (upper edge and kinks or peak). After this, even a rough measuring of corresponding cross section allows to determine the spin of D particles. This approach is free from the difficulties of a well-known methods of measuring the masses via the edges of the energy distribution of dijets, representing W, which obliged by inaccuracies in measuring the energies of individual jets.