Changeset 6574


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Timestamp:
02/17/05 19:16:33 (20 years ago)
Author:
gaug
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  • trunk/MagicSoft/TDAS-Extractor/MonteCarlo.tex

    r6568 r6574  
    11\section{Monte Carlo \label{sec:mc}}
    22
     3\subsection{Charge Signals \label{sec:mc:charge}}
     4
    35Comparing MC signal with and w/o noise for high and low gain pulses.
    46
    57\begin{figure}[htp]%%[t!]
    68\centering
    7   \includegraphics[width=0.38\linewidth]{TimeAndChargePlots/TDAS_TimeRes_SlidW_NoNoise_HiGain.eps}
    8 \vspace{\floatsep}
    9   \includegraphics[width=0.38\linewidth]{TimeAndChargePlots/TDAS_TimeRes_SlidW_WithNoise_HiGain.eps}
    10 \vspace{\floatsep}
    11   \includegraphics[width=0.38\linewidth]{TimeAndChargePlots/TDAS_TimeRes_SlidW_NoNoise_LoGain.eps}
    12 \vspace{\floatsep}
    13   \includegraphics[width=0.38\linewidth]{TimeAndChargePlots/TDAS_TimeRes_SlidW_WithNoise_LoGain.eps}
     9  \includegraphics[width=0.49\linewidth]{TDAS_ChargeDivNphevsNphe_FixW_NoNoise_HiGain.eps}
     10  \vspace{\floatsep}
     11  \includegraphics[width=0.49\linewidth]{TDAS_ChargeDivNphevsNphe_FixW_WithNoise_HiGain.eps}
     12  \vspace{\floatsep}
     13  \includegraphics[width=0.49\linewidth]{TDAS_ChargeDivNphevsNphe_FixW_NoNoise_LoGain.eps}
     14  \vspace{\floatsep}
     15  \includegraphics[width=0.49\linewidth]{TDAS_ChargeDivNphevsNphe_FixW_WithNoise_LoGain.eps}
     16\caption[Charge per Number of photo-electrons Fixed Windows]{Extracted charge per photoelectron versus number of photoelectrons,
     17for fixed window extractors in different window sizes. The top plots show the high-gain and the bottom ones show the
     18low-gain regions. Left: without noise, right: with simulated noise.}
     19\label{ChargeDivNphe_FixW}
     20\end{figure}
     21
     22\begin{figure}[htp]
     23\centering
     24  \includegraphics[width=0.49\linewidth]{TDAS_ChargeDivNphevsNphe_SlidW_NoNoise_HiGain.eps}
     25  \vspace{\floatsep}
     26  \includegraphics[width=0.49\linewidth]{TDAS_ChargeDivNphevsNphe_SlidW_WithNoise_HiGain.eps}
     27  \vspace{\floatsep}
     28  \includegraphics[width=0.49\linewidth]{TDAS_ChargeDivNphevsNphe_SlidW_NoNoise_LoGain.eps}
     29  \vspace{\floatsep}
     30  \includegraphics[width=0.49\linewidth]{TDAS_ChargeDivNphevsNphe_SlidW_WithNoise_LoGain.eps}
     31\caption[Charge per Number of photo-electrons Sliding Windows]{Extracted charge per photoelectron versus number of photoelectrons,
     32for sliding window extractors in different window sizes. The top plots show the high-gain and the bottom ones show the
     33low-gain regions. Left: without noise, right: with simulated noise.}
     34\label{ChargeDivNphe_SlidW}
     35\end{figure}
     36
     37\begin{figure}[htp]
     38\centering
     39  \includegraphics[width=0.49\linewidth]{TDAS_ChargeDivNphevsNphe_DFSpline_NoNoise_HiGain.eps}
     40  \vspace{\floatsep}
     41  \includegraphics[width=0.49\linewidth]{TDAS_ChargeDivNphevsNphe_DFSpline_WithNoise_HiGain.eps}
     42  \vspace{\floatsep}
     43  \includegraphics[width=0.49\linewidth]{TDAS_ChargeDivNphevsNphe_DFSpline_NoNoise_LoGain.eps}
     44  \vspace{\floatsep}
     45  \includegraphics[width=0.49\linewidth]{TDAS_ChargeDivNphevsNphe_DFSpline_WithNoise_LoGain.eps}
     46\caption[Charge per Number of photo-electrons Spline and Digital Filter]{Extracted charge per photoelectron versus number of photoelectrons,
     47for spline and digital filter extractors in different window sizes. The top plots show the high-gain and the bottom ones show the
     48low-gain regions. Left: without noise, right: with simulated noise.}
     49\label{ChargeDivNphe_DFSpline}
     50\end{figure}
     51
     52\begin{figure}[htp]%%[t!]
     53\centering
     54  \includegraphics[width=0.49\linewidth]{TDAS_ConversionvsNphe_FixW_NoNoise_HiGain.eps}
     55  \vspace{\floatsep}
     56  \includegraphics[width=0.49\linewidth]{TDAS_ConversionvsNphe_FixW_WithNoise_HiGain.eps}
     57  \vspace{\floatsep}
     58  \includegraphics[width=0.49\linewidth]{TDAS_ConversionvsNphe_FixW_NoNoise_LoGain.eps}
     59  \vspace{\floatsep}
     60  \includegraphics[width=0.49\linewidth]{TDAS_ConversionvsNphe_FixW_WithNoise_LoGain.eps}
     61  \includegraphics[width=0.49\linewidth]{TDAS_ChargeDivNphevsNphe_FixW_WithNoise_LoGain.eps}
     62\caption[Bias Fixed Windows]{The measured bias (extracted charge divided by the conversion factor minus the number of photoelectrons)
     63versus number of photoelectrons,
     64for fixed window extractors in different window sizes. The top plots show the high-gain and the bottom ones show the
     65low-gain regions. Left: without noise, right: with simulated noise.}
     66\label{ConversionvsNphe_FixW}
     67\end{figure}
     68
     69\begin{figure}[htp]
     70\centering
     71  \includegraphics[width=0.49\linewidth]{TDAS_ConversionvsNphe_SlidW_NoNoise_HiGain.eps}
     72  \vspace{\floatsep}
     73  \includegraphics[width=0.49\linewidth]{TDAS_ConversionvsNphe_SlidW_WithNoise_HiGain.eps}
     74  \vspace{\floatsep}
     75  \includegraphics[width=0.49\linewidth]{TDAS_ConversionvsNphe_SlidW_NoNoise_LoGain.eps}
     76  \vspace{\floatsep}
     77  \includegraphics[width=0.49\linewidth]{TDAS_ConversionvsNphe_SlidW_WithNoise_LoGain.eps}
     78\caption[Bias Sliding Windows]{The measured bias (extracted charge divided by the conversion factor minus the number of photoelectrons)
     79versus number of photoelectrons,
     80for sliding window extractors in different window sizes. The top plots show the high-gain and the bottom ones show the
     81low-gain regions. Left: without noise, right: with simulated noise.}
     82\label{ConversionvsNphe_SlidW}
     83\end{figure}
     84
     85\begin{figure}[htp]
     86\centering
     87  \includegraphics[width=0.49\linewidth]{TDAS_ConversionvsNphe_DFSpline_NoNoise_HiGain.eps}
     88  \vspace{\floatsep}
     89  \includegraphics[width=0.49\linewidth]{TDAS_ConversionvsNphe_DFSpline_WithNoise_HiGain.eps}
     90  \vspace{\floatsep}
     91  \includegraphics[width=0.49\linewidth]{TDAS_ConversionvsNphe_DFSpline_NoNoise_LoGain.eps}
     92  \vspace{\floatsep}
     93  \includegraphics[width=0.49\linewidth]{TDAS_ConversionvsNphe_DFSpline_WithNoise_LoGain.eps}
     94\caption[Bias Spline and Digital Filter]{The measured bias (extracted charge divided by the conversion factor minus the number of photoelectrons)
     95versus number of photoelectrons,
     96for spline and digital filter extractors in different window sizes. The top plots show the high-gain and the bottom ones show the
     97low-gain regions. Left: without noise, right: with simulated noise.}
     98\label{ConversionvsNphe_DFSpline}
     99\end{figure}
     100
     101\begin{figure}[htp]
     102\centering
     103  \includegraphics[width=0.49\linewidth]{TDAS_ChargeRes_FixW_NoNoise_HiGain.eps}
     104  \vspace{\floatsep}
     105  \includegraphics[width=0.49\linewidth]{TDAS_ChargeRes_FixW_WithNoise_HiGain.eps}
     106  \vspace{\floatsep}
     107  \includegraphics[width=0.49\linewidth]{TDAS_ChargeRes_FixW_NoNoise_LoGain.eps}
     108  \vspace{\floatsep}
     109  \includegraphics[width=0.49\linewidth]{TDAS_ChargeRes_FixW_WithNoise_LoGain.eps}
     110\caption[Resolution Fixed Windows]{The measured resolution (RMS of extracted charge divided by the conversion factor minus the number of photoelectrons) versus number of photoelectrons,
     111for fixed window extractors in different window sizes. The top plots show the high-gain and the bottom ones show the
     112low-gain regions. Left: without noise, right: with simulated noise.}
     113\label{ChargeRes_FixW}
     114\end{figure}
     115
     116\begin{figure}[htp]
     117\centering
     118  \includegraphics[width=0.49\linewidth]{TDAS_ChargeRes_SlidW_NoNoise_HiGain.eps}
     119  \vspace{\floatsep}
     120  \includegraphics[width=0.49\linewidth]{TDAS_ChargeRes_SlidW_WithNoise_HiGain.eps}
     121  \vspace{\floatsep}
     122  \includegraphics[width=0.49\linewidth]{TDAS_ChargeRes_SlidW_NoNoise_LoGain.eps}
     123  \vspace{\floatsep}
     124  \includegraphics[width=0.49\linewidth]{TDAS_ChargeRes_SlidW_WithNoise_LoGain.eps}
     125\caption[Resolution Sliding Windows]{The measured resolution (RMS of extracted charge divided by the conversion factor minus the number of photoelectrons) versus number of photoelectrons,
     126for sliding window extractors in different window sizes. The top plots show the high-gain and the bottom ones show the
     127low-gain regions. Left: without noise, right: with simulated noise.}
     128\label{ChargeRes_SlidW}
     129\end{figure}
     130
     131\begin{figure}[htp]
     132\centering
     133  \includegraphics[width=0.49\linewidth]{TDAS_ChargeRes_DFSpline_NoNoise_HiGain.eps}
     134  \vspace{\floatsep}
     135  \includegraphics[width=0.49\linewidth]{TDAS_ChargeRes_DFSpline_WithNoise_HiGain.eps}
     136  \vspace{\floatsep}
     137  \includegraphics[width=0.49\linewidth]{TDAS_ChargeRes_DFSpline_NoNoise_LoGain.eps}
     138  \vspace{\floatsep}
     139  \includegraphics[width=0.49\linewidth]{TDAS_ChargeRes_DFSpline_WithNoise_LoGain.eps}
     140\caption[Resolution Spline and Digital Filter]{The measured resolution
     141(RMS of extracted charge divided by the conversion factor minus the number of photoelectrons) versus number of photoelectrons,
     142for spline and digital filter extractors in different window sizes. The top plots show the high-gain and the bottom ones show the
     143low-gain regions. Left: without noise, right: with simulated noise.}
     144\label{ChargeRes_DFSpline}
     145\end{figure}
     146
     147\begin{figure}[htp]
     148\centering
     149  \includegraphics[width=0.49\linewidth]{TimeAndChargePlots/TDAS_Bias_SlidW_HiGain.eps}
     150  \vspace{\floatsep}
     151  \includegraphics[width=0.49\linewidth]{TimeAndChargePlots/TDAS_Bias_FixW_HiGain.eps}
     152  \vspace{\floatsep}
     153  \includegraphics[width=0.49\linewidth]{TimeAndChargePlots/TDAS_Bias_DFSpline_HiGain.eps}
     154\caption{ Charge bias: comparation bwtween MC files with and without noise, for
     155different extractor methods in high gain region.}
     156\label{Bias_HiGain}
     157\end{figure}
     158
     159\begin{figure}[htp]
     160\centering
     161  \includegraphics[width=0.49\linewidth]{TimeAndChargePlots/TDAS_Bias_SlidW_LoGain.eps}
     162  \vspace{\floatsep}
     163  \includegraphics[width=0.49\linewidth]{TimeAndChargePlots/TDAS_Bias_FixW_LoGain.eps}
     164  \vspace{\floatsep}
     165  \includegraphics[width=0.49Q\linewidth]{TimeAndChargePlots/TDAS_Bias_DFSpline_LoGain.eps}
     166\caption{ Charge bias: comparation bwtween MC files with and without noise, for
     167different extractor methods in low gain region.}
     168\label{Bias_LoGain}
     169\end{figure}
     170
     171\begin{figure}[htp]%%[t!]
     172\centering
     173  \includegraphics[width=0.49\linewidth]{TDAS_TimeRes_SlidW_NoNoise_HiGain.eps}
     174\vspace{\floatsep}
     175  \includegraphics[width=0.49\linewidth]{TDAS_TimeRes_SlidW_WithNoise_HiGain.eps}
     176\vspace{\floatsep}
     177  \includegraphics[width=0.49\linewidth]{TDAS_TimeRes_SlidW_NoNoise_LoGain.eps}
     178\vspace{\floatsep}
     179  \includegraphics[width=0.49\linewidth]{TDAS_TimeRes_SlidW_WithNoise_LoGain.eps}
    14180\caption{Time Resolution for Sliding extractors in deifferent window sizes for low (down) and high (upper)
    15181gain contribution, with (right) and with out (left) noise.}
     
    19185\begin{figure}[htp]
    20186\centering
    21   \includegraphics[width=0.38\linewidth]{TimeAndChargePlots/TDAS_TimeRes_DFSpline_NoNoise_HiGain.eps}
    22 \vspace{\floatsep}
    23   \includegraphics[width=0.38\linewidth]{TimeAndChargePlots/TDAS_TimeRes_DFSpline_WithNoise_HiGain.eps}
    24 \vspace{\floatsep}
    25   \includegraphics[width=0.38\linewidth]{TimeAndChargePlots/TDAS_TimeRes_DFSpline_NoNoise_LoGain.eps}
    26 \vspace{\floatsep}
    27   \includegraphics[width=0.38\linewidth]{TimeAndChargePlots/TDAS_TimeRes_DFSpline_WithNoise_LoGain.eps}
     187  \includegraphics[width=0.49\linewidth]{TDAS_TimeRes_DFSpline_NoNoise_HiGain.eps}
     188\vspace{\floatsep}
     189  \includegraphics[width=0.49\linewidth]{TDAS_TimeRes_DFSpline_WithNoise_HiGain.eps}
     190\vspace{\floatsep}
     191  \includegraphics[width=0.49\linewidth]{TDAS_TimeRes_DFSpline_NoNoise_LoGain.eps}
     192\vspace{\floatsep}
     193  \includegraphics[width=0.49\linewidth]{TDAS_TimeRes_DFSpline_WithNoise_LoGain.eps}
    28194\caption{Time Resolution for Splines and Digital Filter extractors for low (down) and high (upper) 
    29195gain contribution, with (right) and with out (left) noise.}
    30196\label{TimeRes_DFSpline}
    31 \end{figure}
    32 
    33 \begin{figure}[htp]%%[t!]
    34 \centering
    35   \includegraphics[width=0.4\linewidth]{TimeAndChargePlots/TDAS_ChargeDivNphevsNphe_FixW_NoNoise_HiGain.eps}
    36   \vspace{\floatsep}
    37   \includegraphics[width=0.4\linewidth]{TimeAndChargePlots/TDAS_ChargeDivNphevsNphe_FixW_WithNoise_HiGain.eps}
    38   \vspace{\floatsep}
    39   \includegraphics[width=0.4\linewidth]{TimeAndChargePlots/TDAS_ChargeDivNphevsNphe_FixW_NoNoise_LoGain.eps}
    40   \vspace{\floatsep}
    41   \includegraphics[width=0.4\linewidth]{TimeAndChargePlots/TDAS_ChargeDivNphevsNphe_FixW_WithNoise_LoGain.eps}
    42 \caption{ Charge divided by number of photoelectrons versus the number of photoelectrons, for fixed window extractors
    43 in different window sizes for low (down) and high (upper) gain contribution, with (right) and with out (left) noise.}
    44 \label{ChargeDivNphe_FixW}
    45 \end{figure}
    46 
    47 \begin{figure}[htp]
    48 \centering
    49   \includegraphics[width=0.4\linewidth]{TimeAndChargePlots/TDAS_ChargeDivNphevsNphe_SlidW_NoNoise_HiGain.eps}
    50   \vspace{\floatsep}
    51   \includegraphics[width=0.4\linewidth]{TimeAndChargePlots/TDAS_ChargeDivNphevsNphe_SlidW_WithNoise_HiGain.eps}
    52   \vspace{\floatsep}
    53   \includegraphics[width=0.4\linewidth]{TimeAndChargePlots/TDAS_ChargeDivNphevsNphe_SlidW_NoNoise_LoGain.eps}
    54   \vspace{\floatsep}
    55   \includegraphics[width=0.4\linewidth]{TimeAndChargePlots/TDAS_ChargeDivNphevsNphe_SlidW_WithNoise_LoGain.eps}
    56 \caption{ Charge divided by number of photoelectrons versus the number of photoelectrons, for sliding window extractors
    57 in different window sizes for low (down) and high (upper) gain contribution, with (right) and with out (left) noise.}
    58 \label{ChargeDivNphe_SlidW}
    59 \end{figure}
    60 
    61 \begin{figure}[htp]
    62 \centering
    63   \includegraphics[width=0.4\linewidth]{TimeAndChargePlots/TDAS_ChargeDivNphevsNphe_DFSpline_NoNoise_HiGain.eps}
    64   \vspace{\floatsep}
    65   \includegraphics[width=0.4\linewidth]{TimeAndChargePlots/TDAS_ChargeDivNphevsNphe_DFSpline_WithNoise_HiGain.eps}
    66   \vspace{\floatsep}
    67   \includegraphics[width=0.4\linewidth]{TimeAndChargePlots/TDAS_ChargeDivNphevsNphe_DFSpline_NoNoise_LoGain.eps}
    68   \vspace{\floatsep}
    69   \includegraphics[width=0.4\linewidth]{TimeAndChargePlots/TDAS_ChargeDivNphevsNphe_DFSpline_WithNoise_LoGain.eps}
    70 \caption{ Charge divided by number of photoelectrons versus the number of photoelectrons, for spline and
    71 digital filter extractors
    72 in different window sizes for low (down) and high (upper) gain contribution, with (right) and with out (left) noise.}
    73 \label{ChargeDivNphe_DFSpline}
    74 \end{figure}
    75 
    76 \begin{figure}[htp]%%[t!]
    77 \centering
    78   \includegraphics[width=0.4\linewidth]{TimeAndChargePlots/TDAS_ConversionvsNphe_FixW_NoNoise_HiGain.eps}
    79   \vspace{\floatsep}
    80   \includegraphics[width=0.4\linewidth]{TimeAndChargePlots/TDAS_ConversionvsNphe_FixW_WithNoise_HiGain.eps}
    81   \vspace{\floatsep}
    82   \includegraphics[width=0.4\linewidth]{TimeAndChargePlots/TDAS_ConversionvsNphe_FixW_NoNoise_LoGain.eps}
    83   \vspace{\floatsep}
    84   \includegraphics[width=0.4\linewidth]{TimeAndChargePlots/TDAS_ConversionvsNphe_FixW_WithNoise_LoGain.eps}
    85 \caption{ Charge divided by the conversion factor minus the number of photoelectrons
    86 versus the number of photoelectrons, for fixed window extractors
    87 in different window sizes for low (down) and high (upper) gain contribution, with (right) and with out (left) noise.}
    88 \label{ConversionvsNphe_FixW}
    89 \end{figure}
    90 
    91 \begin{figure}[htp]
    92 \centering
    93   \includegraphics[width=0.4\linewidth]{TimeAndChargePlots/TDAS_ConversionvsNphe_SlidW_NoNoise_HiGain.eps}
    94   \vspace{\floatsep}
    95   \includegraphics[width=0.4\linewidth]{TimeAndChargePlots/TDAS_ConversionvsNphe_SlidW_WithNoise_HiGain.eps}
    96   \vspace{\floatsep}
    97   \includegraphics[width=0.4\linewidth]{TimeAndChargePlots/TDAS_ConversionvsNphe_SlidW_NoNoise_LoGain.eps}
    98   \vspace{\floatsep}
    99   \includegraphics[width=0.4\linewidth]{TimeAndChargePlots/TDAS_ConversionvsNphe_SlidW_WithNoise_LoGain.eps}
    100 \caption{ Charge divided by the conversion factor minus the number of photoelectrons 
    101 versus the number of photoelectrons, for sliding window extractors
    102 in different window sizes for low (down) and high (upper) gain contribution, with (right) and with out (left) noise.}
    103 \label{ConversionvsNphe_SlidW}
    104 \end{figure}
    105 
    106 \begin{figure}[htp]
    107 \centering
    108   \includegraphics[width=0.4\linewidth]{TimeAndChargePlots/TDAS_ConversionvsNphe_DFSpline_NoNoise_HiGain.eps}
    109   \vspace{\floatsep}
    110   \includegraphics[width=0.4\linewidth]{TimeAndChargePlots/TDAS_ConversionvsNphe_DFSpline_WithNoise_HiGain.eps}
    111   \vspace{\floatsep}
    112   \includegraphics[width=0.4\linewidth]{TimeAndChargePlots/TDAS_ConversionvsNphe_DFSpline_NoNoise_LoGain.eps}
    113   \vspace{\floatsep}
    114   \includegraphics[width=0.4\linewidth]{TimeAndChargePlots/TDAS_ConversionvsNphe_DFSpline_WithNoise_LoGain.eps}
    115 \caption{ Charge divided by the conversion factor minus the number of photoelectrons
    116 versus the number of photoelectrons, for spline and
    117 digital filter extractors
    118 in different window sizes for low (down) and high (upper) gain contribution, with (right) and with out (left) noise.}
    119 \label{ConversionvsNphe_DFSpline}
    120 \end{figure}
    121 
    122 \begin{figure}[htp]
    123 \centering
    124   \includegraphics[width=0.4\linewidth]{TimeAndChargePlots/TDAS_ChargeRes_FixW_NoNoise_HiGain.eps}
    125   \vspace{\floatsep}
    126   \includegraphics[width=0.4\linewidth]{TimeAndChargePlots/TDAS_ChargeRes_FixW_WithNoise_HiGain.eps}
    127   \vspace{\floatsep}
    128   \includegraphics[width=0.4\linewidth]{TimeAndChargePlots/TDAS_ChargeRes_FixW_NoNoise_LoGain.eps}
    129   \vspace{\floatsep}
    130   \includegraphics[width=0.4\linewidth]{TimeAndChargePlots/TDAS_ChargeRes_FixW_WithNoise_LoGain.eps}
    131 \caption{ Charge resolution versus the number of photoelectrons, for fixed window and spline extractors
    132 in different window sizes for low (down) and high (upper) gain contribution, with (right) and with out (left) noise.}
    133 \label{ChargeRes_FixW}
    134 \end{figure}
    135 
    136 \begin{figure}[htp]
    137 \centering
    138   \includegraphics[width=0.4\linewidth]{TimeAndChargePlots/TDAS_ChargeRes_SlidW_NoNoise_HiGain.eps}
    139   \vspace{\floatsep}
    140   \includegraphics[width=0.4\linewidth]{TimeAndChargePlots/TDAS_ChargeRes_SlidW_WithNoise_HiGain.eps}
    141   \vspace{\floatsep}
    142   \includegraphics[width=0.4\linewidth]{TimeAndChargePlots/TDAS_ChargeRes_SlidW_NoNoise_LoGain.eps}
    143   \vspace{\floatsep}
    144   \includegraphics[width=0.4\linewidth]{TimeAndChargePlots/TDAS_ChargeRes_SlidW_WithNoise_LoGain.eps}
    145 \caption{ Charge resolution versus the number of photoelectrons, for sliding extractors
    146 in different window sizes for low (down) and high (upper) gain contribution, with (right) and with out (left) noise.}
    147 \label{ChargeRes_SlidW}
    148 \end{figure}
    149 
    150 \begin{figure}[htp]
    151 \centering
    152   \includegraphics[width=0.4\linewidth]{TimeAndChargePlots/TDAS_ChargeRes_DFSpline_NoNoise_HiGain.eps}
    153   \vspace{\floatsep}
    154   \includegraphics[width=0.4\linewidth]{TimeAndChargePlots/TDAS_ChargeRes_DFSpline_WithNoise_HiGain.eps}
    155   \vspace{\floatsep}
    156   \includegraphics[width=0.4\linewidth]{TimeAndChargePlots/TDAS_ChargeRes_DFSpline_NoNoise_LoGain.eps}
    157   \vspace{\floatsep}
    158   \includegraphics[width=0.4\linewidth]{TimeAndChargePlots/TDAS_ChargeRes_DFSpline_WithNoise_LoGain.eps}
    159 \caption{ Charge resolution versus the number of photoelectrons, for spline and
    160 digital filter extractors in different window sizes for low (down) and high (upper)
    161 gain contribution, with (right) and with out (left) noise.}
    162 \label{ChargeRes_DFSpline}
    163 \end{figure}
    164 
    165 \begin{figure}[htp]
    166 \centering
    167   \includegraphics[width=0.4\linewidth]{TimeAndChargePlots/TDAS_Bias_SlidW_HiGain.eps}
    168   \vspace{\floatsep}
    169   \includegraphics[width=0.4\linewidth]{TimeAndChargePlots/TDAS_Bias_FixW_HiGain.eps}
    170   \vspace{\floatsep}
    171   \includegraphics[width=0.4\linewidth]{TimeAndChargePlots/TDAS_Bias_DFSpline_HiGain.eps}
    172 \caption{ Charge bias: comparation bwtween MC files with and without noise, for
    173 different extractor methods in high gain region.}
    174 \label{Bias_HiGain}
    175 \end{figure}
    176 
    177 
    178 \begin{figure}[htp]
    179 \centering
    180   \includegraphics[width=0.4\linewidth]{TimeAndChargePlots/TDAS_Bias_SlidW_LoGain.eps}
    181   \vspace{\floatsep}
    182   \includegraphics[width=0.4\linewidth]{TimeAndChargePlots/TDAS_Bias_FixW_LoGain.eps}
    183   \vspace{\floatsep}
    184   \includegraphics[width=0.4\linewidth]{TimeAndChargePlots/TDAS_Bias_DFSpline_LoGain.eps}
    185 \caption{ Charge bias: comparation bwtween MC files with and without noise, for
    186 different extractor methods in low gain region.}
    187 \label{Bias_LoGain}
    188197\end{figure}
    189198
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