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Anatomy of Vector-Like Top-Quark Models in the Alignment Limit of the 2-Higgs Doublet Model Type-II

Anatomy of Vector-Like Top-Quark Models in the Alignment Limit of the 2-Higgs Doublet Model Type-II
Anatomy of Vector-Like Top-Quark Models in the Alignment Limit of the 2-Higgs Doublet Model Type-II
A comprehensive extension of the ordinary 2-Higgs Doublet Model (2HDM), supplemented by Vector-Like Quarks (VLQs), in the ``alignment limit'' is presented. In such a scenario, we study the possibility that Large Hadron Collider (LHC) searches for VLQs can profile their nature too, i.e., whether they belong to a singlet, doublet, or triplet representation. To achieve this, we exploit both Standard Model (SM) decays of VLQs with top-(anti)quark Electromagnetic (EM) charge (T), i.e., into b,t quarks and W±,Z,h bosons (which turn out to be suppressed and hence T states can escape existing limits) as well as their exotic decays, i.e., into b,t (and possibly B) quarks and H±,H,A bosons. We show that quite specific decay patterns emerge in the different VLQ representations so that, depending upon which T signals are accessed at the LHC, one may be able to ascertain the underlying Beyond Standard Model (BSM) structure, especially if mass knowledge of the new fermionic and bosonic sectors can be inferred from (other) data.
hep-ph
Arhrib, A.
f70919b7-51ed-4211-9033-6ffa9b7127ce
Benbrik, R.
90bba75a-4e29-4d13-b589-6dd38568f787
Boukidi, M.
27f7df9c-8283-4bcb-9118-d77035858886
Manaut, B.
41720364-99d3-478f-8786-36b3f8eb2838
Moretti, S.
b57cf0f0-4bc3-4e02-96e3-071255366614
Arhrib, A.
f70919b7-51ed-4211-9033-6ffa9b7127ce
Benbrik, R.
90bba75a-4e29-4d13-b589-6dd38568f787
Boukidi, M.
27f7df9c-8283-4bcb-9118-d77035858886
Manaut, B.
41720364-99d3-478f-8786-36b3f8eb2838
Moretti, S.
b57cf0f0-4bc3-4e02-96e3-071255366614

[Unknown type: UNSPECIFIED]

Record type: UNSPECIFIED

Abstract

A comprehensive extension of the ordinary 2-Higgs Doublet Model (2HDM), supplemented by Vector-Like Quarks (VLQs), in the ``alignment limit'' is presented. In such a scenario, we study the possibility that Large Hadron Collider (LHC) searches for VLQs can profile their nature too, i.e., whether they belong to a singlet, doublet, or triplet representation. To achieve this, we exploit both Standard Model (SM) decays of VLQs with top-(anti)quark Electromagnetic (EM) charge (T), i.e., into b,t quarks and W±,Z,h bosons (which turn out to be suppressed and hence T states can escape existing limits) as well as their exotic decays, i.e., into b,t (and possibly B) quarks and H±,H,A bosons. We show that quite specific decay patterns emerge in the different VLQ representations so that, depending upon which T signals are accessed at the LHC, one may be able to ascertain the underlying Beyond Standard Model (BSM) structure, especially if mass knowledge of the new fermionic and bosonic sectors can be inferred from (other) data.

Text
2401.16219v1 - Author's Original
Available under License Creative Commons Attribution.
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Accepted/In Press date: 29 January 2024
Keywords: hep-ph

Identifiers

Local EPrints ID: 486989
URI: http://eprints.soton.ac.uk/id/eprint/486989
DOI: doi:10.48550/arXiv.2401.16219
PURE UUID: ede9f5ac-df99-485e-9c44-dc28c7364d6e
ORCID for S. Moretti: ORCID iD orcid.org/0000-0002-8601-7246

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Date deposited: 09 Feb 2024 17:34
Last modified: 18 Mar 2024 02:57

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Contributors

Author: A. Arhrib
Author: R. Benbrik
Author: M. Boukidi
Author: B. Manaut
Author: S. Moretti ORCID iD

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