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92 | <body lang=EN-US> |
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93 | |
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94 | <div class=WordSection1> |
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95 | |
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96 | <p class=MsoNormal><span style='font-size:16.0pt;line-height:115%;font-family: |
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97 | "Times New Roman","serif"'>Smear Computation </span></p> |
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98 | <p class=MsoNormal> </p> |
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99 | |
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100 | <ul style='margin-top:0in' type=disc> |
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101 | <li class=MsoNormal style='line-height:115%'><a href="#Slit Smear"><b>Slit Smear</b></a> |
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102 | </li> |
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103 | <li class=MsoNormal style='line-height:115%'><a href="#Pinhole Smear"><b>Pinhole Smear</b></a> |
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104 | </li> |
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105 | <li class=MsoNormal style='line-height:115%'><a href="#2D Smear"><b>2D Smear</b></a> |
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106 | </li> |
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107 | </ul> |
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108 | <p class=MsoNormal> </p> |
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109 | <p class=MsoNormal> </p> |
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110 | <p class=MsoListParagraph><span style='font-size:14.0pt;line-height:115%; |
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111 | font-family:"Times New Roman","serif"'><a name="Slit Smear">Slit Smear</a></span></p> |
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112 | |
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113 | <p class=MsoNormal><span style='font-family:"Times New Roman","serif"'>The sit |
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114 | smeared scattering intensity for SANS is defined by</span></p> |
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115 | |
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116 | <p class=MsoNormal><img width=349 height=49 |
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117 | src="sm_image002.gif" align=left hspace=12></p> |
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118 | |
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119 | <p class=MsoNormal><span style='font-family:"Times New Roman","serif"'> |
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120 | 1)</span><br clear=all> |
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121 | <span style='font-family:"Times New Roman","serif"'>where Norm = <span |
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122 | style='position:relative;top:15.0pt'><img width=137 height=49 |
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123 | src="sm_image003.gif"></span>.</span></p> |
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124 | |
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125 | <p class=MsoNormal><span style='font-family:"Times New Roman","serif"'>The |
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126 | functions <span style='position:relative;top:6.0pt'><img width=43 height=25 |
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127 | src="sm_image004.gif"></span>and <span style='position: |
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128 | relative;top:6.0pt'><img width=43 height=25 |
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129 | src="sm_image005.gif"></span>refer to the slit width weighting |
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130 | function and the slit height weighting determined at the q point, respectively. |
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131 | Here, we assumes that the weighting function is described by a rectangular |
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132 | function, i.e.,</span></p> |
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133 | |
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134 | <p class=MsoNormal><span style='position:relative;top:7.0pt'><img width=134 |
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135 | height=26 src="sm_image006.gif"> |
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136 | </span><span style='font-family:"Times New Roman","serif";position:relative; |
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137 | top:7.0pt'>2)</span></p> |
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138 | |
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139 | <p class=MsoNormal><span style='font-family:"Times New Roman","serif"'>and </span></p> |
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140 | |
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141 | <p class=MsoNormal><span style='position:relative;top:7.0pt'><img width=136 |
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142 | height=26 src="sm_image007.gif"></span>, |
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143 | <span style='font-family:"Times New Roman","serif"'>3)</span></p> |
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144 | |
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145 | <p class=MsoNormal><span style='font-family:"Times New Roman","serif"'>so that </span><span |
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146 | style='position:relative;top:6.0pt'><img width=58 height=23 |
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147 | src="sm_image008.gif"></span> <span style='position:relative; |
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148 | top:16.0pt'><img width=76 height=51 src="sm_image009.gif"></span> <span |
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149 | style='font-family:"Times New Roman","serif"'>for</span> <span |
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150 | style='position:relative;top:3.0pt'><img width=40 height=15 |
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151 | src="sm_image010.gif"></span> <span style='font-family: |
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152 | "Times New Roman","serif"'>and <i>u</i>. The </span><span style='position:relative; |
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153 | top:6.0pt'><img width=28 height=24 src="sm_image011.gif"></span> <span |
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154 | style='font-family:"Times New Roman","serif"'>and </span><span |
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155 | style='position:relative;top:6.0pt'><img width=28 height=24 |
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156 | src="sm_image012.gif"> </span><span style='font-family: |
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157 | "Times New Roman","serif"'>stand for the slit height (FWHM/2) and the slit |
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158 | width (FWHM/2) in the q space. Now the integral of Eq. (1) is simplified to</span></p> |
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159 | |
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160 | <p class=MsoNormal><img width=283 height=52 |
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161 | src="sm_image013.gif" align=left hspace=12><span |
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162 | style='font-family:"Times New Roman","serif"'> |
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163 | 4)</span></p> |
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164 | |
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165 | <p class=MsoNormal><span style='font-family:"Times New Roman","serif"; |
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166 | position:relative;top:20.0pt'> </span></p> |
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167 | |
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168 | <p class=MsoListParagraphCxSpFirst style='margin-left:0in'><b><span |
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169 | style='font-family:"Times New Roman","serif"'>Numerical Implementation of Eq. |
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170 | (4) </span></b></p> |
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171 | |
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172 | <p class=MsoListParagraphCxSpMiddle style='margin-left:.25in;text-indent:-.25in'><span |
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173 | style='font-family:"Times New Roman","serif"'>1)<span style='font:7.0pt "Times New Roman"'> |
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174 | </span></span><span style='font-family:"Times New Roman","serif"'>For </span><span |
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175 | style='position:relative;top:6.0pt'><img width=28 height=24 |
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176 | src="sm_image014.gif"></span>= 0 <span style='font-family: |
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177 | "Times New Roman","serif"'>and </span><span style='position:relative; |
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178 | top:6.0pt'><img width=28 height=24 src="sm_image015.gif"></span> = |
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179 | <span style='font-family:"Times New Roman","serif"'>constant:</span></p> |
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180 | |
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181 | <p class=MsoListParagraphCxSpMiddle style='margin-left:.25in'> |
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182 | <img |
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183 | src="sm_image016.gif"></p> |
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184 | |
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185 | <p class=MsoListParagraphCxSpMiddle style='margin-left:.25in'><span |
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186 | style='font-family:"Times New Roman","serif"'>For discrete q values, at the q |
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187 | values from the data points and at the q values extended up to q<sub>N</sub>= |
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188 | q<sub>i</sub> + </span><span style='position:relative;top:6.0pt'><img width=28 |
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189 | height=24 src="sm_image011.gif"></span><span |
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190 | style='font-family:"Times New Roman","serif"'>, the smeared intensity can be |
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191 | calculated approximately,</span></p> |
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192 | |
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193 | <p class=MsoListParagraphCxSpMiddle style='margin-left:.25in'><img |
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194 | src="sm_image017.gif">. <span |
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195 | style='font-family:"Times New Roman","serif"'>5)</span></p> |
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196 | |
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197 | <p class=MsoListParagraphCxSpMiddle style='margin-left:.25in'><span |
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198 | style='position:relative;top:7.0pt'><img width=23 height=25 |
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199 | src="sm_image018.gif"></span> <span style='font-family: |
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200 | "Times New Roman","serif"'>= 0 for <i>I<sub>s</sub></i> in</span> <i><span |
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201 | style='font-family:"Times New Roman","serif"'>j < i</span></i><span |
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202 | style='font-family:"Times New Roman","serif"'> or<i> j>N-1</i>.</span></p> |
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203 | |
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204 | <p class=MsoListParagraphCxSpMiddle style='margin-left:.25in'><span |
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205 | style='font-family:"Times New Roman","serif"'> </span></p> |
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206 | |
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207 | <p class=MsoListParagraphCxSpMiddle style='margin-left:.25in;text-indent:-.25in'><span |
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208 | style='font-family:"Times New Roman","serif"'>2)<span style='font:7.0pt "Times New Roman"'> |
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209 | </span></span><span style='font-family:"Times New Roman","serif"'>For </span><span |
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210 | style='position:relative;top:6.0pt'><img width=28 height=24 |
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211 | src="sm_image014.gif"></span>= <span style='font-family: |
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212 | "Times New Roman","serif"'>constant </span> <span style='font-family:"Times New Roman","serif"'>and |
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213 | </span><span style='position:relative;top:6.0pt'><img width=28 height=24 |
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214 | src="sm_image015.gif"></span> = <span style='font-family: |
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215 | "Times New Roman","serif"'>0:</span></p> |
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216 | |
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217 | <p class=MsoListParagraphCxSpMiddle style='margin-left:.25in'><span |
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218 | style='font-family:"Times New Roman","serif"'>Similarly to 1), we get</span></p> |
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219 | |
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220 | <p class=MsoListParagraphCxSpMiddle style='margin-left:.25in'> |
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221 | <img |
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222 | src="sm_image019.gif"> |
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223 | <span |
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224 | style='font-family:"Times New Roman","serif"'>6)</span></p> |
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225 | |
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226 | <p class=MsoListParagraphCxSpMiddle style='margin-left:.25in'><span |
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227 | style='font-family:"Times New Roman","serif"'>for q<sub>p</sub> = q<sub>i</sub> |
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228 | - </span><span style='position:relative;top:6.0pt'><img width=28 height=24 |
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229 | src="sm_image012.gif"></span><span style='font-family: |
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230 | "Times New Roman","serif"'> and</span> <span style='font-family:"Times New Roman","serif"'>q<sub>N</sub> |
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231 | = q<sub>i</sub> + </span><span style='position:relative;top:6.0pt'><img |
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232 | width=28 height=24 src="sm_image012.gif"></span>. <span |
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233 | style='position:relative;top:7.0pt'><img width=23 height=25 |
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234 | src="sm_image018.gif"></span> <span style='font-family: |
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235 | "Times New Roman","serif"'>= 0 for <i>I<sub>s</sub></i> in</span> <i><span |
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236 | style='font-family:"Times New Roman","serif"'>j < p</span></i><span |
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237 | style='font-family:"Times New Roman","serif"'> or<i> j>N-1</i>.</span></p> |
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238 | |
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239 | <p class=MsoListParagraphCxSpMiddle style='margin-left:.25in'> </p> |
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240 | |
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241 | <p class=MsoListParagraphCxSpMiddle style='margin-left:.25in;text-indent:-.25in'><span |
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242 | style='font-family:"Times New Roman","serif"'>3)<span style='font:7.0pt "Times New Roman"'> |
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243 | </span></span><span style='font-family:"Times New Roman","serif"'>For </span><span |
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244 | style='position:relative;top:6.0pt'><img width=28 height=24 |
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245 | src="sm_image014.gif"></span>= <span style='font-family: |
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246 | "Times New Roman","serif"'>constant </span> <span style='font-family:"Times New Roman","serif"'>and |
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247 | </span><span style='position:relative;top:6.0pt'><img width=28 height=24 |
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248 | src="sm_image015.gif"></span> = <span style='font-family: |
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249 | "Times New Roman","serif"'>constant:</span></p> |
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250 | |
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251 | <p class=MsoListParagraphCxSpMiddle style='margin-left:.25in'><span |
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252 | style='font-family:"Times New Roman","serif"'>This case, the best way is to |
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253 | perform the integration, Eq. (1), numerically for both slit height and width. |
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254 | However, the numerical integration is not correct enough unless given a large |
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255 | number of iteration, say at least 10000 by 10000 for each element of the matrix |
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256 | W, which will take minutes and minutes to finish the calculation for a set of |
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257 | typical SANS data. An alternative way which is correct for slit width << |
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258 | slit hight, is used in the SANSView: This method is a mixed method that |
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259 | combines the method 1) with the numerical integration for the slit width.</span></p> |
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260 | |
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261 | <p class=MsoListParagraphCxSpMiddle style='margin-left:.25in'> |
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262 | </p> |
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263 | |
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264 | <p class=MsoListParagraphCxSpMiddle style='margin-left:.25in'> |
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265 | <img |
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266 | src="sm_image020.gif"> <span style='font-family: |
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267 | "Times New Roman","serif"'>(7)</span></p> |
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268 | |
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269 | <p class=MsoListParagraphCxSpMiddle style='margin-left:.25in'><span |
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270 | style='font-family:"Times New Roman","serif"'>for q<sub>p</sub> = q<sub>i</sub> |
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271 | - </span><span style='position:relative;top:6.0pt'><img width=28 height=24 |
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272 | src="sm_image012.gif"></span><span style='font-family: |
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273 | "Times New Roman","serif"'> and</span> <span style='font-family:"Times New Roman","serif"'>q<sub>N</sub> |
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274 | = q<sub>i</sub> + </span><span style='position:relative;top:6.0pt'><img |
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275 | width=28 height=24 src="sm_image012.gif"></span>. <span |
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276 | style='position:relative;top:7.0pt'><img width=23 height=25 |
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277 | src="sm_image018.gif"></span> <span style='font-family: |
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278 | "Times New Roman","serif"'>= 0 for <i>I<sub>s</sub></i> in</span> <i><span |
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279 | style='font-family:"Times New Roman","serif"'>j < p</span></i><span |
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280 | style='font-family:"Times New Roman","serif"'> or<i> j>N-1</i>. </span></p> |
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281 | |
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282 | <p class=MsoListParagraphCxSpMiddle style='margin-left:.25in'><span |
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283 | style='font-family:"Times New Roman","serif"'> </span></p> |
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284 | |
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285 | <p class=MsoListParagraphCxSpMiddle style='margin-left:.25in'><span |
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286 | style='font-family:"Times New Roman","serif"'> </span></p> |
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287 | |
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288 | <p class=MsoListParagraphCxSpLast><span style='font-size:14.0pt;line-height: |
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289 | 115%;font-family:"Times New Roman","serif"'><a name="Pinhole Smear">Pinhole Smear</a></span></p> |
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290 | |
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291 | <p class=MsoNormal><span style='font-family:"Times New Roman","serif"'>The |
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292 | pinhole smearing computation is done similar to the Case 2) above except that |
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293 | the weight function used was the Gaussian function, so that the Eq. 6) for this |
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294 | case becomes</span></p> |
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295 | |
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296 | <p class=MsoNormal><img |
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297 | src="sm_image021.gif"><span |
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298 | style='font-family:"Times New Roman","serif"'> (8)</span></p> |
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299 | |
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300 | <p class=MsoNormal><span style='font-family:"Times New Roman","serif"'>For all |
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301 | the cases above, the weighting matrix <i>W</i> is calculated when the smearing |
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302 | is called at the first time, and it includes the ~ 60 q values (finely binned |
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303 | evenly) below (>0) and above the q range of data in order to cover all data |
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304 | points of the smearing computation for a given model and for a given slit size. |
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305 | The <i>Norm</i> factor is found numerically with the weighting matrix, and |
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306 | considered on <i>I<sub>s</sub></i> computation.</span></p> |
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307 | |
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308 | <p class=MsoListParagraphCxSpFirst style='margin-left:.25in'><span |
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309 | style='font-family:"Times New Roman","serif"'> </span></p> |
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310 | |
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311 | <p class=MsoListParagraphCxSpLast><span style='font-size:14.0pt;line-height: |
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312 | 115%;font-family:"Times New Roman","serif"'><a name="2D Smear">2D Smear</a></span></p> |
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313 | |
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314 | <p class=MsoNormal><span style='font-family:"Times New Roman","serif"'>The |
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315 | 2D smearing computation is done similar to the 1D pinhole smearing above |
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316 | except that the weight function used was the 2D elliptical Gaussian function</span></p> |
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317 | |
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318 | <p class=MsoNormal><img |
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319 | src="sm_image022.gif"><span |
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320 | style='font-family:"Times New Roman","serif"'> (9)</span></p> |
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321 | |
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322 | <p class=MsoNormal><span style='font-family:"Times New Roman","serif"'>In Eq |
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323 | (9), x<sub>0</sub> = qcos</span><span style='font-family:Symbol'>(theta)</span><span |
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324 | style='font-family:"Times New Roman","serif"'> and y<sub>0</sub>=qsin</span><span |
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325 | style='font-family:Symbol'>(theta)</span><span style='font-family:"Times New Roman","serif"'> |
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326 | , and the primed axes are in the coordinate rotated by an angle </span><span |
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327 | style='font-family:Symbol'>theta</span><span style='font-family:"Times New Roman","serif"'> |
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328 | around z-axis (below) so that x<sub>0</sub> = x<sub>0</sub>cos</span><span |
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329 | style='font-family:Symbol'>(theta) + </span><span style='font-family:"Times New Roman","serif"'>y<sub>0</sub> |
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330 | sin</span><span style='font-family:Symbol'>(theta) </span><span style='font-family: |
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331 | "Times New Roman","serif"'>and y<sub>0</sub> = -x<sub>0</sub>sin</span><span |
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332 | style='font-family:Symbol'>(theta) + </span><span style='font-family:"Times New Roman","serif"'>y<sub>0</sub> |
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333 | cos</span><span style='font-family:Symbol'>(theta) .</span><span style='font-family: |
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334 | "Times New Roman","serif"'> Note that the rotation angle is zero for x-y |
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335 | symmetric elliptical Gaussian distribution</span><span style='font-family:Symbol'>. |
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336 | </span><span style='font-family:"Times New Roman","serif"'>The A is a |
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337 | normalization factor.</span></p> |
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338 | |
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339 | <p class=MsoNormal align=center style='text-align:center'><span |
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340 | style='font-family:"Times New Roman","serif"'><img width=439 height=376 |
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341 | id="Object 1" src="sm_image023.gif"></span></p> |
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342 | |
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343 | <p class=MsoNormal><span style='font-family:"Times New Roman","serif"'> </span></p> |
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344 | |
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345 | <p class=MsoNormal><span style='font-family:"Times New Roman","serif"'>Now we |
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346 | consider a numerical integration where each bins in </span><span |
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347 | style='font-family:Symbol'>THETA</span><span style='font-family:"Times New Roman","serif"'> |
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348 | and R are <b>evenly </b>(this is to simplify the equation below) distributed by |
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349 | </span><span style='font-family:Symbol'>Delta_THETA </span><span style='font-family: |
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350 | "Times New Roman","serif"'>and </span><span style='font-family:Symbol'>Delta</span><span |
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351 | style='font-family:"Times New Roman","serif"'>R, respectively, and it is |
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352 | assumed that I(x, y) is constant within the bins which in turn becomes</span></p> |
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353 | |
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354 | <p class=MsoNormal><img |
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355 | src="sm_image024.gif"></p> |
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356 | |
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357 | <p class=MsoNormal> <span |
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358 | style='font-family:"Times New Roman","serif"'>(10)</span></p> |
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359 | |
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360 | <p class=MsoNormal><span style='font-family:"Times New Roman","serif"'>Since we |
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361 | have found the weighting factor on each bin points, it is convenient to |
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362 | transform x-y back to x-y coordinate (rotating it by -</span><span |
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363 | style='font-family:Symbol'>(theta)</span><span style='font-family:"Times New Roman","serif"'> |
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364 | around z axis). Then, for the polar symmetric smear,</span></p> |
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365 | |
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366 | <p class=MsoNormal><img |
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367 | src="sm_image025.gif"><span |
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368 | style='position:relative;top:35.0pt'> </span>(11)</p> |
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369 | |
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370 | <p class=MsoNormal><span style='font-family:"Times New Roman","serif"'>where,</span></p> |
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371 | |
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372 | <p class=MsoNormal><img |
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373 | src="sm_image026.gif"></p> |
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374 | |
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375 | <p class=MsoNormal><span style='font-family:"Times New Roman","serif"'>while |
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376 | for the x-y symmetric smear,</span></p> |
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377 | |
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378 | <p class=MsoNormal><img |
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379 | src="sm_image027.gif"><span |
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380 | style='font-family:"Times New Roman","serif"'> (12)</span></p> |
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381 | |
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382 | <p class=MsoNormal><span style='font-family:"Times New Roman","serif"'>where,</span></p> |
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383 | |
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384 | <p class=MsoNormal><img |
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385 | src="sm_image028.gif"></p> |
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386 | |
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387 | <p class=MsoNormal><span style='font-family:"Times New Roman","serif"'>Here, the |
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388 | current version of the SANSVIEW uses the Eq. (11) for 2D smearing assuming that |
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389 | all the Gaussian weighting functions are aligned in the polar coordinate. </span></p> |
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390 | |
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391 | </div> |
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392 | |
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393 | </body> |
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394 | |
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395 | </html> |
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