arXiv : Charged Fermions Below 100 GeV

Egana-Ugrinovic, Daniel; Low, Matthew; Ruderman, Joshua T.

doi:10.1007/JHEP05(2018)012

Article
Report number	arXiv:1801.05432 ; CERN-TH-2018-004
Title	Charged Fermions Below 100 GeV
Author(s)	Egana-Ugrinovic, Daniel (YITP, Stony Brook) ; Low, Matthew (Princeton, Inst. Advanced Study) ; Ruderman, Joshua T. (New York U., CCPP ; CERN)
Publication	2018-05-03
Imprint	2018-01-16
Number of pages	35
Note	35 pages, 11 figures, 2 tables
In:	JHEP 05 (2018) 012
DOI	10.1007/JHEP05(2018)012
Subject category	hep-ex ; Particle Physics - Experiment ; hep-ph ; Particle Physics - Phenomenology
Abstract	How light can a fermion be if it has unit electric charge? We revisit the lore that LEP robustly excludes charged fermions lighter than about 100 GeV. We review LEP chargino searches, and find them to exclude charged fermions lighter than 90 GeV, assuming a higgsino-like cross section. However, if the charged fermion couples to a new scalar, destructive interference among production channels can lower the LEP cross section by a factor of 3. In this case, we find that charged fermions as light as 75 GeV can evade LEP bounds, while remaining consistent with constraints from the LHC. As the LHC collects more data, charged fermions in the 75-100 GeV mass range serve as a target for future monojet and disappearing track searches.
Copyright/License	arXiv nonexclusive-distrib. 1.0

$LEP higgsino pair production cross section, $\sigma_{\chi_H^+\chi_H^-}$ (black solid), and charged fermion pair production cross section, $\sigma_{F^+F^-}$, allowing for $t$-channel interference (black dashed). In the $t$-channel diagram shown in Fig.~\ref{fig:pairproduction}, the coupling is set to $\kappa=0.5$ and the singlet mass to $m_S = 110~\textrm{GeV}$\@. The light and dark red lines are the LEP limits on the pair production cross section from~\cite{lepsusy} and~\cite{Abbiendi:2002vz}, respectively. The limits in this figure assume higgsino-like decays, and a charged-neutral mass splitting of $\Delta m = 2.7~\textrm{GeV}$\@.$ $Limits on the pure higgsino model, set by the searches in Table~\ref{tab:LEPsearches}, in the uncompressed region (left) and in the compressed region (right). In the uncompressed region the strongest limits are set by the OPAL multilepton search~\cite{Abbiendi:2003ji} and by ADLO searches for promptly decaying higgsinos~\cite{lepsusyLarge}. The range $m_{\chi_H^\pm}\leq 50~\textrm{GeV}$ is not covered by the OPAL multilepton search, so we rely exclusively on the ADLO combination. In the compressed region, the space from $3~\textrm{GeV} \leq \Delta m \leq 10~\textrm{GeV}$ is mainly covered by a combination of the ADLO conventional and ADLO ``low DM'' prompt searches, as well as by the OPAL multilepton search. The OPAL and ADLO ISR assisted searches~\cite{Abbiendi:2002vz,lepsusy}, set bounds in the regions $320~\textrm{MeV} \leq \Delta m \leq 3~\textrm{GeV}$ and $320~\textrm{MeV} \leq \Delta m \leq 5~\textrm{GeV}$, respectively. In the region $m_{\pi^\pm} \leq \Delta m \leq 320~\textrm{MeV}$, the chargino decays within the detector, and we rely exclusively on the ADLO combination, which contains dedicated searches for kinked tracks and large impact parameters. The region $\Delta m \leq m_{\pi^\pm}$ is covered by the OPAL HSCP search~\cite{Abbiendi:2003yd}, which applies to particles with a decay length $\geq 3~\textrm{m}$\@. The black dashed line indicates the one-loop radiative chargino-neutralino mass splitting.$ $Chargino pair production cross section, $\sigma_{F^+F^-}$, at LEP within our simplified model, normalized to the charged higgsino pair production cross section $\sigma_{\chi_H^+\chi_H^-}$. The cross section is shown as a function of the coupling $\kappa$ for fixed singlet mass $m_S=150~\textrm{GeV}$ (left), and as a function of the singlet mass $m_S$ for fixed coupling $\kappa=0.5$ (right). In both cases, the charged fermion mass is set to $m_{F^\pm}=75~\textrm{GeV}$\@. Cross sections are obtained from~\cite{Dreiner:2008tw}.$ Show more plots

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