Changeset 6562 for trunk/MagicSoft/TDAS-Extractor/MonteCarlo.tex
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- 02/17/05 10:00:23 (20 years ago)
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trunk/MagicSoft/TDAS-Extractor/MonteCarlo.tex (modified) (1 diff)
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trunk/MagicSoft/TDAS-Extractor/MonteCarlo.tex
r6410 r6562 1 1 \section{Monte Carlo \label{sec:mc}} 2 3 Comparing MC signal with and w/o noise for high and low gain pulses. 4 5 \begin{figure}[htp]%%[t!] 6 \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} 14 \caption{Time Resolution for Sliding extractors in deifferent window sizes for low (down) and high (upper) 15 gain contribution, with (right) and with out (left) noise.} 16 \label{TimeRes_SlidW} 17 \end{figure} 18 19 \begin{figure}[htp] 20 \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} 28 \caption{Time Resolution for Splines and Digital Filter extractors for low (down) and high (upper) 29 gain contribution, with (right) and with out (left) noise.} 30 \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 161 in different window sizes for low (down) and high (upper) gain contribution, with (right) and with out (left) noise.} 162 \label{ChargeRes_DFSpline} 163 \end{figure} 164 165 2 166 3 167 %%% Local Variables:
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