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The most probable energy loss per path length $I_h$ (y-axis) vs. the momentum (x-axis) for data and three different signal models with single- and multiple-charged particles~\cite{bib:CMS:PAS:HSCP_13TeV}.

\textit{Left:} The predicted (red dots) and observed (black dots) mass spectrum of the ''tracker-only`` analysis of~\cite{bib:CMS:PAS:HSCP_13TeV}. A possible 1\,TeV gluino signal is indicated by the green area. \textit{Right:} The observed 95\% cross section upper limit for various signal models for the ''tracker-only`` analysis~\cite{bib:CMS:PAS:HSCP_13TeV}. The green lines indicate the theoretical cross sections.

\textit{Left:} The predicted (red dots) and observed (black dots) mass spectrum of the ''tracker-only`` analysis of~\cite{bib:CMS:PAS:HSCP_13TeV}. A possible 1\,TeV gluino signal is indicated by the green area. \textit{Right:} The observed 95\% cross section upper limit for various signal models for the ''tracker-only`` analysis~\cite{bib:CMS:PAS:HSCP_13TeV}. The green lines indicate the theoretical cross sections.

\textit{Left:} The reconstructed mass, $m_{\beta\gamma}$, derived from the $dE/dx$ measurements in the pixel tracker against the mass reconstructed from the time-of-flight measurement, $m_{\beta}$, for data, signal and expected background events~\cite{bib:ATLAS:Paper:Pixel+ToF_13TeV}. The black dotted line indicates the signal region used for this specific signal model. \textit{Right:}~The observed (red line) and expected (black dashed line) 95\% cross section upper limit for stable gluinos~\cite{bib:ATLAS:Paper:Pixel+ToF_13TeV}. The blue band indicates the theoretical cross section. The green and yellow bands correspond to the 1 and 2\,$\sigma$ uncertainty of the expected upper limit, respectively.

\textit{Left:} The reconstructed mass, $m_{\beta\gamma}$, derived from the $dE/dx$ measurements in the pixel tracker against the mass reconstructed from the time-of-flight measurement, $m_{\beta}$, for data, signal and expected background events~\cite{bib:ATLAS:Paper:Pixel+ToF_13TeV}. The black dotted line indicates the signal region used for this specific signal model. \textit{Right:}~The observed (red line) and expected (black dashed line) 95\% cross section upper limit for stable gluinos~\cite{bib:ATLAS:Paper:Pixel+ToF_13TeV}. The blue band indicates the theoretical cross section. The green and yellow bands correspond to the 1 and 2\,$\sigma$ uncertainty of the expected upper limit, respectively.

\textit{Left:} The mass distribution of reconstructed tracks in the pixel tracker for background (red line), signal (dashed lines), and data (black dots) events~\cite{bib:ATLAS:Paper:PixelDeDx_13TeV}. \textit{Right:} The 95\% cross section upper limit for long-lived gluinos ($\tau>0.4\,$ns) decaying to $q\overline{q}$ and a 100\,GeV neutralino~\cite{bib:ATLAS:Paper:PixelDeDx_13TeV}.

\textit{Left:} The mass distribution of reconstructed tracks in the pixel tracker for background (red line), signal (dashed lines), and data (black dots) events~\cite{bib:ATLAS:Paper:PixelDeDx_13TeV}. \textit{Right:} The 95\% cross section upper limit for long-lived gluinos ($\tau>0.4\,$ns) decaying to $q\overline{q}$ and a 100\,GeV neutralino~\cite{bib:ATLAS:Paper:PixelDeDx_13TeV}.

\textit{Left:} The 2-dimensional distribution of the $dE/dx$ significance measured in the MDT (y-axis) and TRT (x-axis) for data and two different signal models~\cite{bib:ATLAS:Paper:MultiChargedParticles_8TeV}. \textit{Right:} The 95\% cross section upper limit for multi-charged particles (dashed lines) and their corresponding theoretical cross sections (solid lines)~\cite{bib:ATLAS:Paper:MultiChargedParticles_8TeV}.

\textit{Left:} The 2-dimensional distribution of the $dE/dx$ significance measured in the MDT (y-axis) and TRT (x-axis) for data and two different signal models~\cite{bib:ATLAS:Paper:MultiChargedParticles_8TeV}. \textit{Right:} The 95\% cross section upper limit for multi-charged particles (dashed lines) and their corresponding theoretical cross sections (solid lines)~\cite{bib:ATLAS:Paper:MultiChargedParticles_8TeV}.

\textit{Left:} The 2-dimensional distribution of $w$ (x-axis) and $f^{\text{HT}}_{\text{TRT}}$ (y-axis) for data and a signal model with a mass of the magnetic monopole of $1\,$TeV and a spin of $1/2$~\cite{bib:ATLAS:Paper:MagneticMonopoles_8TeV}. The definition of the signal region (A) and the control regions (B, C, D) is indicated by the red lines. \textit{Right:} The 95\% cross section upper limits (dashed lines) and the theoretical cross sections (solid lines) for magnetic monopoles with spin 1/2 and different magnetic charges~\cite{bib:ATLAS:Paper:MagneticMonopoles_8TeV}.

\textit{Left:} The 2-dimensional distribution of $w$ (x-axis) and $f^{\text{HT}}_{\text{TRT}}$ (y-axis) for data and a signal model with a mass of the magnetic monopole of $1\,$TeV and a spin of $1/2$~\cite{bib:ATLAS:Paper:MagneticMonopoles_8TeV}. The definition of the signal region (A) and the control regions (B, C, D) is indicated by the red lines. \textit{Right:} The 95\% cross section upper limits (dashed lines) and the theoretical cross sections (solid lines) for magnetic monopoles with spin 1/2 and different magnetic charges~\cite{bib:ATLAS:Paper:MagneticMonopoles_8TeV}.