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temporarily disable pgfplot things in chapter5 to make things compiled

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nam
2017-02-08 08:43:32 -06:00
parent daee5ed40d
commit 3755edd3a6
1 changed files with 80 additions and 80 deletions
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160
thesis/chapters/chap5_alcap_setup.tex
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@@ -475,37 +475,37 @@ The conversion from ADC value to energy is done with a first-order polynomial:
The calibration coefficients for the silicon channels are listed in
\cref{tab:cal_coeff}.
\begin{table}
\begin{center}
\pgfplotstabletypeset[
% separator
col sep=comma,
% columns displayed
display columns/0/.style={column name = \textbf{Detector}, string type,
column type=l},
display columns/1/.style={column name = \textbf{Slope}, column type=c,
dec sep align},
display columns/2/.style={column name = \textbf{Offset}, column type=r,
dec sep align},
% format the line breaks
every head row/.style={
before row={\toprule},
after row={\midrule},
%%TODO unit of coeffcients
%after row={ \arraybackslash
%{ }& { keV/channel } & { keV }\\
%\midrule},
%{}& {(keV/channel)} & {(keV)}\\ \midrule},
columns/Detector/.style={column type=c},
columns/Slope/.style={column type=c},
columns/Offset/.style={column type=c}
},
every last row/.style={after row=\bottomrule},
]{raw/si_cal_effs.csv}
\caption{Calibration coefficients of the silicon detector channels}
\label{tab:cal_coeff}
\end{center}
\end{table}
%%\begin{table}
%% \begin{center}
%% \pgfplotstabletypeset[
%% % separator
%% col sep=comma,
%% % columns displayed
%% display columns/0/.style={column name = \textbf{Detector}, string type,
%% column type=l},
%% display columns/1/.style={column name = \textbf{Slope}, column type=c,
%% dec sep align},
%% display columns/2/.style={column name = \textbf{Offset}, column type=r,
%% dec sep align},
%% % format the line breaks
%% every head row/.style={
%% before row={\toprule},
%% after row={\midrule},
%% %%TODO unit of coeffcients
%% %after row={ \arraybackslash
%% %{ }& { keV/channel } & { keV }\\
%% %\midrule},
%% %{}& {(keV/channel)} & {(keV)}\\ \midrule},
%% columns/Detector/.style={column type=c},
%% columns/Slope/.style={column type=c},
%% columns/Offset/.style={column type=c}
%% },
%% every last row/.style={after row=\bottomrule},
%% ]{raw/si_cal_effs.csv}
%% \caption{Calibration coefficients of the silicon detector channels}
%% \label{tab:cal_coeff}
%% \end{center}
%%\end{table}
% subsection silicon_detector (end)
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
\subsection{Germanium detector}
@@ -640,55 +640,55 @@ for a finite-sized source without correction.
\end{figure}
The absolute efficiencies of the referenced points, and calculated efficiencies
at X-rays of interest are listed in \cref{tab:xray_eff}.
\begin{table}[htb]
\begin{center}
\pgfplotstabletypeset[
% separator
col sep=comma,
% columns displayed
% column type={S} means leave formatting to siunitx
display columns/0/.style={column name = \textbf{Photons (\si{\keV})},
string type,
column type={S[table-format=4.3, table-alignment=center]}},
display columns/1/.style={column name = \textbf{Efficiency},
string type,
column type={S[parse-numbers = true,
round-precision=3,
round-mode=figures,
fixed-exponent=-4,
scientific-notation=fixed,
table-format=1.2e-1,
%table-omit-exponent,
]}},
display columns/2/.style={column name = \textbf{Uncertainty},
string type,
column type={S[parse-numbers = true,
round-precision=3,
round-mode=figures,
fixed-exponent=-5,
scientific-notation=fixed,
table-format=1.3e-1,
%table-omit-exponent,
]}},
% format the line breaks
every head row/.style={
before row={\toprule},
after row={
%\textbf{\si{\keV}} & \textbf{\num{E-4}} & \textbf{\num{E-4}}\\
\midrule},
columns/0/.style={column type=r},
columns/1/.style={column type=c},
columns/2/.style={column type=c}
},
every last row/.style={after row=\bottomrule},
every nth row={8}{before row={\midrule}},
]{raw/ge_eff.csv}
\end{center}
\caption{Absolute efficiencies of the germanium detector in case of
a point-like source placed at the centre of the target (upper half), and
the calculated efficiencies for the X-rays of interest (lower half).}
\label{tab:xray_eff}
\end{table}
%%\begin{table}[htb]
%% \begin{center}
%% \pgfplotstabletypeset[
%% % separator
%% col sep=comma,
%% % columns displayed
%% % column type={S} means leave formatting to siunitx
%% display columns/0/.style={column name = \textbf{Photons (\si{\keV})},
%% string type,
%% column type={S[table-format=4.3, table-alignment=center]}},
%% display columns/1/.style={column name = \textbf{Efficiency},
%% string type,
%% column type={S[parse-numbers = true,
%% round-precision=3,
%% round-mode=figures,
%% fixed-exponent=-4,
%% scientific-notation=fixed,
%% table-format=1.2e-1,
%% %table-omit-exponent,
%% ]}},
%% display columns/2/.style={column name = \textbf{Uncertainty},
%% string type,
%% column type={S[parse-numbers = true,
%% round-precision=3,
%% round-mode=figures,
%% fixed-exponent=-5,
%% scientific-notation=fixed,
%% table-format=1.3e-1,
%% %table-omit-exponent,
%% ]}},
%% % format the line breaks
%% every head row/.style={
%% before row={\toprule},
%% after row={
%% %\textbf{\si{\keV}} & \textbf{\num{E-4}} & \textbf{\num{E-4}}\\
%% \midrule},
%% columns/0/.style={column type=r},
%% columns/1/.style={column type=c},
%% columns/2/.style={column type=c}
%% },
%% every last row/.style={after row=\bottomrule},
%% every nth row={8}{before row={\midrule}},
%% ]{raw/ge_eff.csv}
%% \end{center}
%% \caption{Absolute efficiencies of the germanium detector in case of
%% a point-like source placed at the centre of the target (upper half), and
%% the calculated efficiencies for the X-rays of interest (lower half).}
%% \label{tab:xray_eff}
%%\end{table}
% subsection germanium_detector (end)
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%