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Thesis: Introduction: Random Writes
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\begin{document}
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\begin{document}
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\chapter{Introduction}
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\chapter{Cosmic Rays and Extensive Air Showers}
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\label{sec:introduction}
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\label{sec:introduction}
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%<<<
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%<<<
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% Intro Cosmic Ray
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% Intro Cosmic Ray
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Large collaborations are now detecting cosmic rays with a variety of methods over a large range of energy (see Figure~\ref{fig:cr_flux}).
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Large collaborations are now detecting cosmic rays with a variety of methods over a large range of energy (see Figure~\ref{fig:cr_flux}).
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\\
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\\
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% Radio
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% Radio
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In the last decade, the detection using radio antennas has received significant attention \Todo{ref}, such that collaborations such as the~\gls{GRAND}\Todo{more?} are building observatoria that fully rely on radio measurements.
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In the last two decades, the detection using radio antennas has received significant attention \Todo{ref}, such that collaborations such as the~\gls{GRAND}\Todo{more?} are building observatoria that fully rely on radio measurements.
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%
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%
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For such radio arrays, the analyses require an accurate timing of signals within the array.
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For such radio arrays, the analyses require an accurate timing of signals within the array.
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Generally, \glspl{GNSS} are used to synchronise the detectors.
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Generally, \glspl{GNSS} are used to synchronise the detectors.
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\includegraphics[width=\textwidth]{astroparticle/The_CR_spectrum_2023.pdf}
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\includegraphics[width=\textwidth]{astroparticle/The_CR_spectrum_2023.pdf}
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\caption{
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\caption{
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From \protect \cite{The_CR_spectrum}.
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From \protect \cite{The_CR_spectrum}.
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The diffuse cosmic ray spectrum as measured by various experiments.
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The diffuse cosmic ray spectrum (upper line) as measured by various experiments.
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The intensity and fluxes can generally be described by rapidly decreasing power laws.
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The intensity and fluxes can generally be described by rapidly decreasing power laws.
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The grey shading indicates the order of magnitude of the particle flux, such that from the ankle onwards ($E>10^9\GeV$) the flux reaches $1/km^2/yr$.
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The grey shading indicates the order of magnitude of the particle flux, such that from the ankle onwards ($E>10^9\GeV$) the flux reaches $1$~particle per~square~kilometer per~year.
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\protect \Todo{Knee - (inter)galactic}
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}
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}
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\label{fig:cr_flux}
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\label{fig:cr_flux}
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\end{figure}%>>>
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\end{figure}%>>>
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% Energy
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% Energy
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Cosmic rays span a large range of energy and flux as illustrated in Figure~\ref{fig:cr_flux}.
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Cosmic rays span a large range of energy and flux as illustrated in Figure~\ref{fig:cr_flux}.
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At lower energies, the flux is high enough for direct detection.
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At lower energies, the flux is high enough for direct detection.
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At energies above $10^{6}\GeV$, the flux decrease requires indirect detection methods.
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At energies above $10^{6}\GeV$, however, the flux decrease requires indirect detection to obtain decent statistics.
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\\
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\\
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% Acceleration
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% Acceleration
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The acceleration of high energy cosmic rays is thought to occur in highly energetic regions.
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The acceleration of high energy cosmic rays is thought to occur in highly energetic regions.
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