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writing accelerator report
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\usepackage{caption}
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\usepackage{caption}
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\usepackage[export]{adjustbox}
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\usepackage[export]{adjustbox}
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\usepackage{float}
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\usepackage{float}
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\usepackage{gensymb}
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\bibliography{/home/caes/wmu/phy-4660/adv_lab.bib}
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\bibliography{/home/caes/wmu/phy-4660/adv_lab.bib}
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\begin{figure}
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\begin{figure}
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\center
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\center
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\includegraphics[width=6in]{../abundances.png}
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\includegraphics[width=4.5in]{../abundances.png}
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\caption{Relative elemental abundances in the sun's photosphere. Lithium and fluorine are much less abundant than their neighbour elements. It is thought this is due to large probability cross-sections for a proton collision with these nuclei. \cite{Carroll&Ostlie}}
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\caption{Relative elemental abundances in the sun's photosphere. Lithium and fluorine are much less abundant than their neighbour elements. It is thought this is due to large probability cross-sections for a proton collision with these nuclei. \cite{Carroll&Ostlie}}
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\end{figure}
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\end{figure}
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\section{Nuclear Reactions and Detection Plan}
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\section{Nuclear Reactions and Detection Plan}
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\label{sec:beamreactions}
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\label{sec:beamreactions}
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We expect three reactions to occur
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\begin{figure}
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\begin{figure}
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\center
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\center
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\includegraphics[width=4.5in]{../collision.png}
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\includegraphics[width=4.5in]{../collision.png}
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\caption{In general, an incident particle collides with a target nucleus, resulting in an emitted particle and a residual nucleus. The backscattering experiments in this study have $\theta = 149\pm0.05\degree$ \cite{ADVLABACCEL}}
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\caption{In general, an incident particle collides with a target nucleus, resulting in an emitted particle and a residual nucleus. The backscattering experiments in this study have $\theta = 149\pm0.05\degree$ \cite{ADVLABACCEL}.}
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\end{figure}
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\end{figure}
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