- Timestamp:
- 03/02/05 20:40:43 (20 years ago)
- Location:
- trunk/MagicSoft/TDAS-Extractor
- Files:
-
- 9 added
- 1 edited
Legend:
- Unmodified
- Added
- Removed
-
trunk/MagicSoft/TDAS-Extractor/Calibration.tex
r6666 r6708 584 584 \label{fig:linear:phevschargearea3} 585 585 \end{figure} 586 587 \clearpage 588 589 \subsection{High-Gain vs. Low-Gain Calibration \label{sec:cal:hivslo}} 590 591 The High-gain vs. Low-gain calibration is performed with events which on the one side do not yet 592 saturate the high-gain channel, and on the other side are intense enough to trigger the low-gain switch 593 in the electronics. Assuming that the signal reconstruction bias is negligible in any low-gain event 594 (see also chapter~\ref{sec:mc}), one can then build the ratio of the reconstructed signal from the high-gain 595 channel vs. the one reconstructed from the low-gain channel. 596 \par 597 For the following tests, we applied the following criteria: 598 599 \begin{itemize} 600 \item The content of the FADC slice with the largest signal has to be greater than 200 FADC counts 601 \item The content of the FADC slice with the largest signal has to be smaller than 245 FADC counts 602 \end{itemize} 603 604 One of the used calibration runs (run \# 31762, \textit{\bf 1\,Led\,Blue}}) 605 was especially apt to test the high-gain vs. low-gain 606 inter-calibration of the reconstructed signals since there, the two requirements were fulfilled by 607 more than 100~pixels in a reasonable number of events such that enough statistics could be accumulated. 608 \par 609 610 Figure~\ref{fig:ratio:sliding} shows some of the obtained results for all pixels with enough statistics: 611 The results obtained with two spline algorithms and with two digital filter initializations are plotted 612 against those obtained with a sliding window over 8 FADC slices in high-gain and low-gain. One can see that 613 there is a rather good correlation for: 614 615 \begin{figure}[htp] 616 \centering 617 \includegraphics[width=0.45\linewidth]{Ratio-21vs25.eps} 618 \includegraphics[width=0.45\linewidth]{Ratio-21vs27.eps} 619 \includegraphics[width=0.45\linewidth]{Ratio-21vs28.eps} 620 \includegraphics[width=0.45\linewidth]{Ratio-21vs32.eps} 621 \caption{Distributions of the calibrated high-gain vs. low-gain signal ratio, calculated with one test extractor 622 vs. a reference extractor (sliding window over 8 high-gain and 8 low-gain FADC slices, extractor \#21). 623 The tested extractors are: top left: integrating spline over 0.5 FADC slices left from maximum and 1.5 624 FADC slice right from maximum (extrator \#25), top right: integrating spline over 1.5 FADC slices left 625 from maximum and 4.5 FADC slices right from maximum (extractor \#27), bottom left: digital filter fitting 626 cosmics pulses over 6 FADC slices, bottom left: digital filter fitting a blue calibration pulse over 627 6 FADC slices.} 628 \label{fig:ratio:sliding} 629 \end{figure} 630 631 \begin{figure}[htp] 632 \centering 633 \includegraphics[width=0.45\linewidth]{Ratio-28vs29.eps} 634 \includegraphics[width=0.45\linewidth]{Ratio-32vs33.eps} 635 \caption{Distributions of the calibrated high-gain vs. low-gain signal ratio, calculated with the 636 digital filter. For the values on x-axis the integration over 6 FADC slices has been applied, for those 637 one the y-axis, the integration over 4 FADC slices. Left: Digital filter fitting 638 cosmics pulses, right: Digital filter fitting a blue calibration pulse.} 639 \label{fig:ratiovsdf 640 \end{figure} 641 586 642 587 643 \clearpage … … 994 1050 %%% mode: latex 995 1051 %%% TeX-master: "MAGIC_signal_reco" 1052 %%% TeX-master: "MAGIC_signal_reco" 996 1053 %%% End:
Note:
See TracChangeset
for help on using the changeset viewer.