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Presentation: write outline

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Eric Teunis de Boone 2023-07-04 11:09:35 +02:00
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presentations/2023-07-06_final_masters/2023-Masters.tex
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@ -91,12 +91,24 @@
%%%%%%%%%%%%%%%
% Meta data <<<
%%%%%%%%%%%%%%%
\def\thesistitle{Enhancing Timing Accuracy\texorpdfstring{\\[0.3cm]}{ }in Air Shower Radio Detectors}
\def\thesissubtitle{}
\def\thesisauthorfirst{E.T.}
\def\thesisauthorsecond{de Boone}
\def\thesisauthoremail{}
\def\thesissupervisorfirst{dr. Harm}
\def\thesissupervisorsecond{Schoorlemmer}
\def\thesissupervisoremail{}
\title[]{}
\title[]{Enhancing Timing Accuracy in Air Shower Radio Detectors}
\date{July, 2023}
\author[E.T. de Boone]{E.T. de Boone}
\author[\thesisauthorfirst\space\thesisauthorsecond]{%
\thesisauthorfirst\space\thesisauthorsecond\thanks{\thesisauthoremail}\\
\vspace*{2em}
{Supervisor: \thesissupervisorfirst\space\thesissupervisorsecond\thanks{\thesissupervisoremail} }
}
% >>> Meta data
@ -109,7 +121,52 @@
%%%%%%%%%%%%%%%
% Start of slides <<<
%%%%%%%%%%%%%%%
\section{Cosmic Particles}% <<<<
% Sources, Types, Propagation, Observables
% Flux -> Large instrumentation area
% Detection methods of Auger
% - FD, SD
% AERA / AugerPrime RD or GRAND
\begin{frame}
\end{frame}
% >>>>
\section{Radio Interferometry}% <<<<
\begin{frame}
\end{frame}
% >>>>
\section{Timing in Radio Detectors}% <<<<
% GNSS
% reference system: White Rabbit, AERA beacon, (ADS-B?)
% GRAND setup and measurements
\begin{frame}
\end{frame}
% >>>>
\section{Beacon Synchronisation}% <<<<
% Geometry
% Pulse method + SNR
% Sine method + SNR
\begin{frame}
\end{frame}
% >>>>
\section{Single Sine Synchronisation}% <<<<
% Sine method + Radio Interferometry
\begin{frame}
\end{frame}
% >>>>
\section{Conclusion}% <<<<
% Single Sine + Air Shower
% Outlook: Parasitic/Active vs Pulse/Sine table
% Parasitic Single Sine: 67MHz Auger
% Implementation for GRAND?
\begin{frame}
\end{frame}
% >>>>
% >>> End of Slides
%%%%%%%%%%%%%%%
% Backup slides <<<

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presentations/2023-07-06_final_masters/README.md
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[source](2023-Masters.tex)
## Outline
1. Cosmic Particles from outerspace
1. Flux to Detectors
2. Radio Detectors (AugerPrime RD, GRAND)
3. Radio Interferometry
3. GPS Timing mechanism and reference timing
1. (White Rabbit)
2. GRAND setup
4. Reference Beacon
1. Common problem
2. Pulse and SNR
3. (Multi)Sine and SNR
5. Single Sine Synchronisation
6. Conclusion
- Single Sine works: mix of radio interferometry
- Outlook:
1. 67MHz Auger
2. GRAND