% vim: fdm=marker fmr=<<<,>>> %% %% Thesis Preamble %% %% <<< Packages %% % For Bibliography \usepackage[sorting=none,natbib=true,citestyle=numeric-comp,backend=bibtex]{biblatex} % Document \usepackage{amsmath} \usepackage{mathtools} %\usepackage{cancel} \usepackage{todo} % Graphics \usepackage{placeins} \usepackage{xcolor} \usepackage{graphicx} \usepackage{epstopdf} \usepackage{caption} \usepackage{subcaption} \captionsetup{subrefformat=parens} \usepackage{enumitem} \usepackage[colorlinks=true]{hyperref} \usepackage{cleveref} \usepackage{grffile} \usepackage{physics} \usepackage[english]{babel} % for proper word breaking at line ends \usepackage[switch]{lineno} \usepackage[acronym]{glossaries} \glsdisablehyper %\usepackage{listings} \usepackage{csquotes} \usepackage[defaultlines=3,all]{nowidow} \usepackage[margin=1.0in]{geometry} \usepackage[nobottomtitles*]{titlesec} \usepackage{subfiles} %% >>> \newcommand{\email}[1]{\href{mailto:#1}{#1}} %% <<< Layout %% \titleformat{\chapter}[block] % shape {\normalfont\bfseries\LARGE\filcenter} % format {\chaptertitlename\ \thechapter.\\} % label {0.5ex} % sep {\huge } % before-code [\vspace{0.5ex}% {\titlerule[2pt]} ] % after-code \titlespacing{\chapter}{0pt}{*3}{*3} \setlength{\parindent}{0cm} %\DeclareRobustCommand{\thefootnote}{\alph{footnote}} % alphabetic footnote markers %% Automatic float barriers for section and subsection \let\Oldsection\section \renewcommand{\section}{\FloatBarrier\Oldsection} %\let\Oldsubsection\subsection %\renewcommand{\subsection}{\FloatBarrier\Oldsubsection} %\let\Oldsubsubsection\subsubsection %\renewcommand{\subsubsection}{\FloatBarrier\Oldsubsubsection} %% >>> %% <<< Shortcuts %% \newcommand*{\captionsource}[2]{% \caption[{#1}]{% #1% \\\hspace{\linewidth}% \textbf{Source:} #2% }% } % <<<< Math \newcommand{\dif}[1]{\mathop{}\!\mathrm{d} #1} \newcommand{\pdif}[1]{\mathop{}\!\mathrm{\partial} #1} \newcommand{\dbyd}[2]{\ensuremath{\mathrm{d}{#1}/\mathrm{d}{#2}}} \DeclareMathOperator{\Corr}{Corr} %\DeclareMathOperator{\erf}{erf} \DeclareMathOperator{\argmax}{argmax} \DeclareMathOperator{\arctantwo}{arctan2} \DeclareRobustCommand{\eexp}[1]{\ensuremath{e^{#1}}} \DeclareRobustCommand{\expOf}[1]{\ensuremath{\exp{\!\left(#1\right)}}} \DeclareRobustCommand{\ofOrder}[1]{\ensuremath{\mathcal{O}\left(#1\right)}} % >>>> % <<<< Units \newcommand{\eV}{\text{\,e\kern-0.15exV}} \newcommand{\MeV}{\text{\,M\!\eV}} \newcommand{\GeV}{\text{\,G\!\eV}} \newcommand{\TeV}{\text{\,T\!\kern-0.1ex\eV}} \newcommand{\metre}{\text{\,m}} \newcommand{\mV}{\text{\,m\kern-0.1exV}} \newcommand{\uV}{\text{\,\textmu\kern-0.1exV}} \newcommand{\uVperm}{\text{\uV\kern-0.2ex/\kern-0.1ex\!\metre}} \newcommand{\ns}{\text{\,ns}} \newcommand{\us}{\text{\,\textmu s}} \newcommand{\kHz}{\text{\,kHz}} \newcommand{\MHz}{\text{\,MHz}} \newcommand{\GHz}{\text{\,GHz}} % >>>> % <<<< Quantities % Notes: % \tau is a measured/apparent quantity % t is true time % priming is required for moving with the signal / different reference frame \newcommand{\beaconfreq}{\ensuremath{f_\mathrm{beacon}}} \newcommand{\fbeacon}{\ensuremath{f_\mathrm{beacon}}} \newcommand{\Xmax}{\ensuremath{X_\mathrm{max}}} \newcommand{\phase}{\varphi} % deprecated \newcommand{\tTime}{t} % deprecated %% time variables \newcommand{\tTrue}{t} \newcommand{\tMeas}{\tau} \newcommand{\tRes}{\tTrue_\mathrm{res}} \newcommand{\tResidual}{\tRes} \newcommand{\tTrueTrue}{\tTrue_\mathrm{true}} \newcommand{\tTrueEmit}{\tTrue_0} \newcommand{\tTrueArriv}{\tTrueEmit'} \newcommand{\tMeasArriv}{\tMeas_0} \newcommand{\tProp}{\tTrue_d} \newcommand{\tClock}{\tTrue_c} \newcommand{\tClockPhase}{\ensuremath{\tTrue_\phase}} \newcommand{\tClockPeriod}{\ensuremath{k T}} %% phase variables \newcommand{\pTrue}{\phi} \newcommand{\PTrue}{\Phi} \newcommand{\pMeas}{\varphi} \newcommand{\pRes}{\pTrue_\mathrm{res}} \newcommand{\pResidual}{\pRes} \newcommand{\pTrueTrue}{\pTrue_\mathrm{true}} \newcommand{\pTrueEmit}{\pTrue_0} \newcommand{\pTrueArriv}{\pTrueArriv'} \newcommand{\pMeasArriv}{\pMeas_0} \newcommand{\pProp}{\pTrue_d} \newcommand{\pClock}{\pTrue_c} %% >>>> %% >>> %% <<< Acronyms %% \newacronym{GNSS}{GNSS}{Global Navigation Satellite System} \newacronym{EAS}{EAS}{Extensive Air Shower} \newacronym{UHE}{UHE}{Ultra High Energy} \newacronym{UHECR}{UHECR}{\acrlong{UHE} Cosmic Ray} \newacronym{DU}{DU}{Detector Unit} \newacronym{PPS}{PPS}{Pulse Per Second} %% <<<< Names \newacronym{GRAND}{GRAND}{Giant Radio Array for Neutrino Detection} \newacronym{BEACON}{BEACON}{Beamforming Elevated Array for COsmic Neutrinos} \newacronym{LOFAR}{LOFAR}{Low-Frequency Array} \newacronym{PA}{PA}{Pierre~Auger} \newacronym{PAObs}{PAO}{Pierre~Auger Observatory} \newacronym{Auger}{Auger}{\acrlong{PAObs}} \newacronym{AugerPrime}{AugerPrime}{AugerPrime} \newacronym{AERA}{\textsc{AERA}}{Auger Engineering Radio~Array} \newacronym{ADC}{\textsc{ADC}}{Analog-to-Digital~Converter} \newacronym{ZHAireS}{ZHAireS}{ZHAireS} %% >>>> %% <<<< Math \newacronym{DTFT}{\textsc{DTFT}}{Discrete Time Fourier Transform} \newacronym{DFT}{\textsc{DFT}}{Discrete Fourier Transform} \newacronym{FFT}{\textsc{FFT}}{Fast Fourier Transform} \newacronym{FT}{\textsc{FT}}{Fourier Transform} \newacronym{RMS}{\textsc{RMS}}{root-mean-square} \newacronym{SNR}{\textsc{SNR}}{signal-to-noise ratio} %% >>>> %% >>>