A W' boson near 2 TeV: predictions for Run 2 of the LHC

Bogdan A. Dobrescu; Zhen Liu

arXiv:1506.06736·hep-ph·November 25, 2015

A W' boson near 2 TeV: predictions for Run 2 of the LHC

Bogdan A. Dobrescu, Zhen Liu

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TL;DR

This paper proposes a renormalizable theory with a W' boson around 2 TeV, potentially explaining recent collider excesses, and predicts a related Z' boson with specific cross sections at the 13 TeV LHC.

Contribution

It introduces a new renormalizable model featuring a W' boson near 2 TeV and predicts a Z' boson with measurable signatures at the LHC.

Findings

01

W' boson mass in 1.8-2 TeV range explains collider excesses.

02

Predicted Z' boson has mass 3.4-4.5 TeV with specific cross sections.

03

Cross section times branching ratios are 10 fb and 0.6 fb for Z' at 3.4 TeV.

Abstract

We present a renormalizable theory that includes a $W^{'}$ boson of mass in the 1.8-2 TeV range, which may explain the excess events reported by the ATLAS Collaboration in a $W Z$ final state, and by the CMS Collaboration in $e^{+} e^{-} j j$ , $W h^{0}$ and $j j$ final states. The $W^{'}$ boson couples to right-handed quarks and leptons, including Dirac neutrinos with TeV-scale masses. This theory predicts a $Z^{'}$ boson of mass in the 3.4-4.5 TeV range. The cross section times branching fractions for the narrow $Z^{'}$ dijet and dilepton peaks at the 13 TeV LHC are 10 fb and 0.6 fb, respectively, for $M_{Z^{'}} = 3.4$ TeV, and an order of magnitude smaller for $M_{Z^{'}} = 4.5$ TeV.

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