1 | \section{Introduction}
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2 |
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3 | \begin{itemize}
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4 | \item{Short description of the MAGIC read-out system}
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5 | \end{itemize}
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6 |
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7 | Figure~\ref{fig:MAGIC_read-out_scheme} shows a sketch of the MAGIC read-out scheme, including the PMT camera,
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8 | the analog-optical link, the majority trigger logic and
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9 | FADCs. The used PMTs provide a very fast
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10 | response to the input light signal. The response of the PMTs to sub-ns input light pulses shows a FWHM of
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11 | 1.0 - 1.2 ns and rise and fall times of 600 and 700 ps correspondingly \cite{Magic-PMT}. By modulating VCSEL
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12 | type laser diodes in amplitude, the fast analogue signals from the PMTs are transferred via 162\,m long,
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13 | 50/125\,$\mu$m diameter optical fibers to the counting house \cite{MAGIC-analog-link-2}. After transforming the
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14 | light back to an electrical signal, the original PMT pulse has a FWHM of about 2.2 ns and rise and fall
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15 | times of about 1\,ns. % was 2.2 ns
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16 |
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17 | %an analog optical link \ci
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18 | %te{MAGIC-analog-link-2} to the counting house.
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19 |
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20 |
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21 | \begin{figure}[h!]
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22 | \begin{center}
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23 | \includegraphics[width=\textwidth]{Magic_readout_scheme1.eps}
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24 | \end{center}
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25 | \caption[Current MAGIC read-out scheme.]{Current MAGIC read-out scheme: the analog PMT signals are
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26 | transferred via an analog optical link to the counting house where after the trigger decision the signals
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27 | are digitized by using a 300 MHz FADCs system and written to the hard disk of a DAQ PC.}
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28 | \label{fig:MAGIC_read-out_scheme}
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29 | \end{figure}
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30 |
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31 |
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32 |
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33 | %After modulating VCSEL type laser diodes, after traveling through 162m of multi-mode graded index fiber of 50/125 $\mu$m diameter and.
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34 |
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35 |
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36 | In order to sample this pulse shape with the used 300 MSamples/s FADC system, the pulse is shaped to a
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37 | FWHM greater than 6\,ns
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38 | (the original pulse is folded with a stretching function of 6ns). Because the MAGIC FADCs have a
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39 | resolution of 8 bit only, the signals are split into two branches with gains differing by a factor 10.
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40 | One branch is delayed by 55\,ns and then both branches are multiplexed and consecutively read-out by one FADC.
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41 | Figure~\ref{fig:pulpo_shape_high} shows a typical average of identical input signals. A more detailed overview about the MAGIC read-out and DAQ system is given in \cite{Magic-DAQ}.
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42 | % The maximum sustained trigger rate could be 1 kHz. The FADCs feature a FIFO memory which allows a significantly higher short-time rate.
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43 | % Obviously by doing this, more LONS is integrated and thus the performance of the telescope on the analysis level is degraded.
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44 |
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45 | \par
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46 |
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47 | \ldots {\textit{STILL MISSING:} \ldots
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48 | \begin{itemize}
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49 | \item DAQ jumps
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50 | \item clock noise
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51 | \item inner and outer pixels
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52 | \end{itemize}
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53 |
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54 | } \ldots
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55 |
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56 |
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57 | %%% Local Variables:
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58 | %%% mode: latex
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59 | %%% TeX-master: "MAGIC_signal_reco"
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60 | %%% End:
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