Searching for New Physics Inside Jets with the Herwig 7 Generalised Parton Shower

Abstract

This study investigates parton shower evolution incorporating both Standard Model (SM) and beyond-the-Standard-Model (BSM) radiation, focusing on the phenomenology of a massive Z' boson. While traditional approaches typically assume direct Z' production in the hard process, the possibility of Z' production within jets, enabled by subsequent emissions in the parton shower, offers a complementary opportunity to probe new physics through jet substructure and event topology. The newly developed Herwig 7 framework supporting BSM parton showers enables efficient simulation of Z' production in the logarithmically enhanced regime. Using a simple BSM benchmark, the minimal U(1)B -L extension of the SM, the interplay between the SM and BSM showers is evaluated to identify kinematic features that distinguish Z'-induced jets from conventional signatures. BSM-radiation signatures are contrasted with SM backgrounds such as QCD, top-quark, and Drell-Yan production, identifying potential discriminants for experimental searches. Experimental sensitivity at the LHC and prospective future colliders is estimated via statistical-significance projections. We find that Z' bosons produced through parton shower radiation populate non-isolated regions inside jets, providing an avenue for new-physics searches overlooked in traditional analyses.