From 10ecbd7d759a248cbdb8980652a22f625d221f5f Mon Sep 17 00:00:00 2001 From: Eric Teunis de Boone Date: Tue, 4 Jul 2023 11:09:35 +0200 Subject: [PATCH] Presentation: write outline --- .../2023-07-06_final_masters/2023-Masters.tex | 61 ++++++++++++++++++- .../2023-07-06_final_masters/README.md | 24 ++++++++ 2 files changed, 83 insertions(+), 2 deletions(-) diff --git a/presentations/2023-07-06_final_masters/2023-Masters.tex b/presentations/2023-07-06_final_masters/2023-Masters.tex index 05b0a44..26e8f3f 100644 --- a/presentations/2023-07-06_final_masters/2023-Masters.tex +++ b/presentations/2023-07-06_final_masters/2023-Masters.tex @@ -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 <<< diff --git a/presentations/2023-07-06_final_masters/README.md b/presentations/2023-07-06_final_masters/README.md index 7ed7ac7..9bf11ed 100644 --- a/presentations/2023-07-06_final_masters/README.md +++ b/presentations/2023-07-06_final_masters/README.md @@ -2,3 +2,27 @@ [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 +