lowmultiplicity

Lowmultiplicity refers to events in particle collisions or decays that produce a small number of final-state particles. In practice, the term is used when the multiplicity N, the count of charged or all final-state particles within a defined detector acceptance, is low (for example a few tracks). The precise threshold depends on the experiment and the analysis, and distinctions are made between inclusive multiplicity (any number of particles) and exclusive multiplicity (exactly N particles). Measurements often use reconstructed charged-particle tracks with certain transverse momentum and pseudorapidity limits, and may supplement with neutral-energy information from calorimeters.

Low-multiplicity events arise in several contexts. Elastic scattering and two-body decays inherently produce few final-state particles.

Applications and implications include detector calibration and performance studies, tuning of event generators, and background estimation