A Brief Review on Jet Substructure in Connection with Collider Phenomenology

TL;DR

This review discusses the importance of jet substructure analysis in collider phenomenology, highlighting its theoretical background and experimental applications in understanding particle collisions at colliders like the LHC.

Contribution

It provides a comprehensive overview connecting jet substructure concepts with their practical applications in collider phenomenology, aiding new researchers in the field.

Findings

Summarizes key jet substructure techniques used in collider analysis.

Highlights the role of jet substructure in BSM physics searches.

Bridges theoretical concepts with experimental practices.

Abstract

It is a challenge for the theoretical particle physicists to perform the phenomenology of the Beyond Standard Model (BSM) theories using advanced simulations which can mimic the experimental environment at the colliders as closely as possible. In collider phenomenology jet substructure is a concept that is used frequently to analyse the properties of the jets, characterised as a cluster of hadrons, which is often the end result of particle collisions at the colliders, such as Large Hadron Collider (LHC). A vast literature on jet substructure exists both from the theory and experimental point of view. But, even with the knowledge of Quantum Chromodynamics (QCD), it is hard to cope up with the vastness of the applicability of the subject for a new researcher in this field. In this review, an attempt has been made to bridge the gap between the concept of jet substructure and its application in the collider phenomenology. However, for detailed understanding, one should look at the references.