MTN is all you need: production of multiple semi-invisible resonances at hadron colliders

Abstract

The stransverse mass variable MT2 was originally proposed for the study of hadron collider events in which N=2 parent particles are produced and then decay semi-invisibly. Here we consider the generalization to the case of N 3 semi-invisibly decaying parent particles. We introduce the corresponding class of kinematic variables MTN and illustrate their mathematical properties. Many of the celebrated features of the MT2 kinematic endpoint are retained in this more general case, including the ability to measure the mass of the invisible daughter particle from the stransverse mass kink. We describe and validate a numerical procedure for computing MTN in practice. We also identify the configurations of visible momenta which result in nontrivial (MTN 0) values, and derive a pure phase-space estimate for the fraction of such events for any N.