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Autori principali: Dube, Sourabh, Kumar, Nilanjana, Ranjan, Shriyansh
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2512.16180
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author Dube, Sourabh
Kumar, Nilanjana
Ranjan, Shriyansh
author_facet Dube, Sourabh
Kumar, Nilanjana
Ranjan, Shriyansh
contents This paper explores a simplified extension of the standard model featuring a neutral fermion quintuplet and a scalar quadruplet, which together generate neutrino masses through tree and loop level mechanisms. The quintuplet fermions decay into standard model gauge bosons via the scalars, producing unique collider signatures at the LHC characterized by multilepton and multijet final states. The study focuses on the pair production of quintuplet fermions in the 700-1200 GeV mass range, where their decays produce highly boosted W and Z bosons identifiable as fatjets. Emphasis is placed on the production and decay of doubly charged fermions due to their higher cross section. Advanced jet substructure and kinematic techniques are applied to enhance sensitivity by reducing standard model backgrounds. A detailed analysis of signal significance is performed in the two lepton, two fatjet and three lepton, one fatjet channels for different masses of the fermion and the scalars, optimizing selection cuts to maximize signal efficiency over standard model backgrounds. The study found that both channels exhibit excellent performance, with significance exceeding $5σ$ under realistic conditions including a 50\% background uncertainty at integrated luminosity up to 3000 fb$^{-1}$.
format Preprint
id arxiv_https___arxiv_org_abs_2512_16180
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Fatjet Signatures of Quintuplet Fermions at the LHC
Dube, Sourabh
Kumar, Nilanjana
Ranjan, Shriyansh
High Energy Physics - Phenomenology
This paper explores a simplified extension of the standard model featuring a neutral fermion quintuplet and a scalar quadruplet, which together generate neutrino masses through tree and loop level mechanisms. The quintuplet fermions decay into standard model gauge bosons via the scalars, producing unique collider signatures at the LHC characterized by multilepton and multijet final states. The study focuses on the pair production of quintuplet fermions in the 700-1200 GeV mass range, where their decays produce highly boosted W and Z bosons identifiable as fatjets. Emphasis is placed on the production and decay of doubly charged fermions due to their higher cross section. Advanced jet substructure and kinematic techniques are applied to enhance sensitivity by reducing standard model backgrounds. A detailed analysis of signal significance is performed in the two lepton, two fatjet and three lepton, one fatjet channels for different masses of the fermion and the scalars, optimizing selection cuts to maximize signal efficiency over standard model backgrounds. The study found that both channels exhibit excellent performance, with significance exceeding $5σ$ under realistic conditions including a 50\% background uncertainty at integrated luminosity up to 3000 fb$^{-1}$.
title Fatjet Signatures of Quintuplet Fermions at the LHC
topic High Energy Physics - Phenomenology
url https://arxiv.org/abs/2512.16180