source: sasview/sansmodels/src/media/smear_computation.html @ 6e8b436

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<p class=MsoNormal><span style='font-size:16.0pt;line-height:115%;font-family:
"Times New Roman","serif"'>Smear Computation </span></p>
<p class=MsoNormal>&nbsp;</p>

<ul style='margin-top:0in' type=disc>
 <li class=MsoNormal style='line-height:115%'><a href="#Slit Smear"><b>Slit Smear</b></a>
     </li>
 <li class=MsoNormal style='line-height:115%'><a href="#Pinhole Smear"><b>Pinhole Smear</b></a>
        </li>
 <li class=MsoNormal style='line-height:115%'><a href="#2D Smear"><b>2D Smear</b></a> 
        </li>
</ul>
<p class=MsoNormal>&nbsp;</p>
<p class=MsoNormal>&nbsp;</p>
<p class=MsoListParagraph><span style='font-size:14.0pt;line-height:115%;
font-family:"Times New Roman","serif"'><a name="Slit Smear">Slit Smear</a></span></p>

<p class=MsoNormal><span style='font-family:"Times New Roman","serif"'>The sit
smeared scattering intensity for SANS is defined by</span></p>

<p class=MsoNormal><img width=349 height=49
src="sm_image002.gif" align=left hspace=12></p>

<p class=MsoNormal><span style='font-family:"Times New Roman","serif"'>           
                                 1)</span><br clear=all>
<span style='font-family:"Times New Roman","serif"'>where Norm = <span
style='position:relative;top:15.0pt'><img width=137 height=49
src="sm_image003.gif"></span>.</span></p>

<p class=MsoNormal><span style='font-family:"Times New Roman","serif"'>The
functions <span style='position:relative;top:6.0pt'><img width=43 height=25
src="sm_image004.gif"></span>and <span style='position:
relative;top:6.0pt'><img width=43 height=25
src="sm_image005.gif"></span>refer to the slit width weighting
function and the slit height weighting determined at the q point, respectively.
 Here, we assumes that the weighting function is described by a rectangular
function, i.e.,</span></p>

<p class=MsoNormal><span style='position:relative;top:7.0pt'><img width=134
height=26 src="sm_image006.gif">                                                                                                       
  </span><span style='font-family:"Times New Roman","serif";position:relative;
top:7.0pt'>2)</span></p>

<p class=MsoNormal><span style='font-family:"Times New Roman","serif"'>and </span></p>

<p class=MsoNormal><span style='position:relative;top:7.0pt'><img width=136
height=26 src="sm_image007.gif"></span>,                                                                              
                         <span style='font-family:"Times New Roman","serif"'>3)</span></p>

<p class=MsoNormal><span style='font-family:"Times New Roman","serif"'>so that </span><span
style='position:relative;top:6.0pt'><img width=58 height=23
src="sm_image008.gif"></span> <span style='position:relative;
top:16.0pt'><img width=76 height=51 src="sm_image009.gif"></span> <span
style='font-family:"Times New Roman","serif"'>for</span>  <span
style='position:relative;top:3.0pt'><img width=40 height=15
src="sm_image010.gif"></span> <span style='font-family:
"Times New Roman","serif"'>and <i>u</i>. The </span><span style='position:relative;
top:6.0pt'><img width=28 height=24 src="sm_image011.gif"></span> <span
style='font-family:"Times New Roman","serif"'>and </span><span
style='position:relative;top:6.0pt'><img width=28 height=24
src="sm_image012.gif"> </span><span style='font-family:
"Times New Roman","serif"'>stand for the slit height (FWHM/2) and the slit
width (FWHM/2) in the q space. Now the integral of Eq. (1) is simplified to</span></p>

<p class=MsoNormal><img width=283 height=52
src="sm_image013.gif" align=left hspace=12><span
style='font-family:"Times New Roman","serif"'>                                                  
         4)</span></p>

<p class=MsoNormal><span style='font-family:"Times New Roman","serif";
position:relative;top:20.0pt'>&nbsp;</span></p>

<p class=MsoListParagraphCxSpFirst style='margin-left:0in'><b><span
style='font-family:"Times New Roman","serif"'>Numerical Implementation of Eq.
(4) </span></b></p>

<p class=MsoListParagraphCxSpMiddle style='margin-left:.25in;text-indent:-.25in'><span
style='font-family:"Times New Roman","serif"'>1)<span style='font:7.0pt "Times New Roman"'>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;
</span></span><span style='font-family:"Times New Roman","serif"'>For </span><span
style='position:relative;top:6.0pt'><img width=28 height=24
src="sm_image014.gif"></span>= 0  <span style='font-family:
"Times New Roman","serif"'>and </span><span style='position:relative;
top:6.0pt'><img width=28 height=24 src="sm_image015.gif"></span> =
<span style='font-family:"Times New Roman","serif"'>constant:</span></p>

<p class=MsoListParagraphCxSpMiddle style='margin-left:.25in'>
<img 
src="sm_image016.gif"></p>

<p class=MsoListParagraphCxSpMiddle style='margin-left:.25in'><span
style='font-family:"Times New Roman","serif"'>For discrete q values, at the q
values from the data points and at the q values extended up to  q<sub>N</sub>=
q<sub>i</sub> + </span><span style='position:relative;top:6.0pt'><img width=28
height=24 src="sm_image011.gif"></span><span
style='font-family:"Times New Roman","serif"'>, the smeared intensity can be
calculated approximately,</span></p>

<p class=MsoListParagraphCxSpMiddle style='margin-left:.25in'><img 
src="sm_image017.gif">.                                                           <span
style='font-family:"Times New Roman","serif"'>5)</span></p>

<p class=MsoListParagraphCxSpMiddle style='margin-left:.25in'><span
style='position:relative;top:7.0pt'><img width=23 height=25
src="sm_image018.gif"></span> <span style='font-family:
"Times New Roman","serif"'>= 0 for <i>I<sub>s</sub></i> in</span> <i><span
style='font-family:"Times New Roman","serif"'>j &lt; i</span></i><span
style='font-family:"Times New Roman","serif"'> or<i> j&gt;N-1</i>.</span></p>

<p class=MsoListParagraphCxSpMiddle style='margin-left:.25in'><span
style='font-family:"Times New Roman","serif"'>&nbsp;</span></p>

<p class=MsoListParagraphCxSpMiddle style='margin-left:.25in;text-indent:-.25in'><span
style='font-family:"Times New Roman","serif"'>2)<span style='font:7.0pt "Times New Roman"'>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;
</span></span><span style='font-family:"Times New Roman","serif"'>For  </span><span
style='position:relative;top:6.0pt'><img width=28 height=24
src="sm_image014.gif"></span>= <span style='font-family:
"Times New Roman","serif"'>constant </span> <span style='font-family:"Times New Roman","serif"'>and
</span><span style='position:relative;top:6.0pt'><img width=28 height=24
src="sm_image015.gif"></span> = <span style='font-family:
"Times New Roman","serif"'>0:</span></p>

<p class=MsoListParagraphCxSpMiddle style='margin-left:.25in'><span
style='font-family:"Times New Roman","serif"'>Similarly to 1), we get</span></p>

<p class=MsoListParagraphCxSpMiddle style='margin-left:.25in'>
<img 
src="sm_image019.gif">                                                                                        
<span
style='font-family:"Times New Roman","serif"'>6)</span></p>

<p class=MsoListParagraphCxSpMiddle style='margin-left:.25in'><span
style='font-family:"Times New Roman","serif"'>for  q<sub>p</sub> = q<sub>i</sub>
- </span><span style='position:relative;top:6.0pt'><img width=28 height=24
src="sm_image012.gif"></span><span style='font-family:
"Times New Roman","serif"'> and</span> <span style='font-family:"Times New Roman","serif"'>q<sub>N</sub>
= q<sub>i</sub> + </span><span style='position:relative;top:6.0pt'><img
width=28 height=24 src="sm_image012.gif"></span>.  <span
style='position:relative;top:7.0pt'><img width=23 height=25
src="sm_image018.gif"></span> <span style='font-family:
"Times New Roman","serif"'>= 0 for <i>I<sub>s</sub></i> in</span> <i><span
style='font-family:"Times New Roman","serif"'>j &lt; p</span></i><span
style='font-family:"Times New Roman","serif"'> or<i> j&gt;N-1</i>.</span></p>

<p class=MsoListParagraphCxSpMiddle style='margin-left:.25in'>&nbsp;</p>

<p class=MsoListParagraphCxSpMiddle style='margin-left:.25in;text-indent:-.25in'><span
style='font-family:"Times New Roman","serif"'>3)<span style='font:7.0pt "Times New Roman"'>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;
</span></span><span style='font-family:"Times New Roman","serif"'>For  </span><span
style='position:relative;top:6.0pt'><img width=28 height=24
src="sm_image014.gif"></span>= <span style='font-family:
"Times New Roman","serif"'>constant </span> <span style='font-family:"Times New Roman","serif"'>and
</span><span style='position:relative;top:6.0pt'><img width=28 height=24
src="sm_image015.gif"></span> = <span style='font-family:
"Times New Roman","serif"'>constant:</span></p>

<p class=MsoListParagraphCxSpMiddle style='margin-left:.25in'><span
style='font-family:"Times New Roman","serif"'>This case, the best way is to
perform the integration, Eq. (1), numerically for both slit height and width.
However, the numerical integration is not correct enough unless given a large
number of iteration, say at least 10000 by 10000 for each element of the matrix
W, which will take minutes and minutes to finish the calculation for a set of
typical SANS data. An alternative way which is correct for slit width &lt;&lt;
slit hight, is used in the SANSView:  This method is a mixed method that
combines the method 1) with the numerical integration for the slit width.</span></p>

<p class=MsoListParagraphCxSpMiddle style='margin-left:.25in'>
</p>

<p class=MsoListParagraphCxSpMiddle style='margin-left:.25in'>
<img 
src="sm_image020.gif">    <span style='font-family:
"Times New Roman","serif"'>(7)</span></p>

<p class=MsoListParagraphCxSpMiddle style='margin-left:.25in'><span
style='font-family:"Times New Roman","serif"'>for  q<sub>p</sub> = q<sub>i</sub>
- </span><span style='position:relative;top:6.0pt'><img width=28 height=24
src="sm_image012.gif"></span><span style='font-family:
"Times New Roman","serif"'> and</span> <span style='font-family:"Times New Roman","serif"'>q<sub>N</sub>
= q<sub>i</sub> + </span><span style='position:relative;top:6.0pt'><img
width=28 height=24 src="sm_image012.gif"></span>.  <span
style='position:relative;top:7.0pt'><img width=23 height=25
src="sm_image018.gif"></span> <span style='font-family:
"Times New Roman","serif"'>= 0 for <i>I<sub>s</sub></i> in</span> <i><span
style='font-family:"Times New Roman","serif"'>j &lt; p</span></i><span
style='font-family:"Times New Roman","serif"'> or<i> j&gt;N-1</i>. </span></p>

<p class=MsoListParagraphCxSpMiddle style='margin-left:.25in'><span
style='font-family:"Times New Roman","serif"'>&nbsp;</span></p>

<p class=MsoListParagraphCxSpMiddle style='margin-left:.25in'><span
style='font-family:"Times New Roman","serif"'>&nbsp;</span></p>

<p class=MsoListParagraphCxSpLast><span style='font-size:14.0pt;line-height:
115%;font-family:"Times New Roman","serif"'><a name="Pinhole Smear">Pinhole Smear</a></span></p>

<p class=MsoNormal><span style='font-family:"Times New Roman","serif"'>The
pinhole smearing computation is done similar to the Case 2) above except that
the weight function used was the Gaussian function, so that the Eq. 6) for this
case becomes</span></p>

<p class=MsoNormal><img 
src="sm_image021.gif"><span
style='font-family:"Times New Roman","serif"'>                                                         (8)</span></p>

<p class=MsoNormal><span style='font-family:"Times New Roman","serif"'>For all
the cases above, the weighting matrix <i>W</i> is calculated when the smearing
is called at the first time, and it includes the ~ 60 q values (finely binned
evenly) below (&gt;0) and above the q range of data in order to cover all data
points of the smearing computation for a given model and for a given slit size.
 The <i>Norm</i> factor is found numerically with the weighting matrix, and
considered on <i>I<sub>s</sub></i> computation.</span></p>

<p class=MsoListParagraphCxSpFirst style='margin-left:.25in'><span
style='font-family:"Times New Roman","serif"'>&nbsp;</span></p>

<p class=MsoListParagraphCxSpLast><span style='font-size:14.0pt;line-height:
115%;font-family:"Times New Roman","serif"'><a name="2D Smear">2D Smear</a></span></p>

<p class=MsoNormal><span style='font-family:"Times New Roman","serif"'>The
2D smearing computation is done similar to the 1D pinhole smearing above
except that the weight function used was the 2D elliptical Gaussian function</span></p>

<p class=MsoNormal><img 
src="sm_image022.gif"><span
style='font-family:"Times New Roman","serif"'>                    (9)</span></p>

<p class=MsoNormal><span style='font-family:"Times New Roman","serif"'>In Eq
(9), x<sub>0</sub> = qcos</span><span style='font-family:Symbol'>q</span><span
style='font-family:"Times New Roman","serif"'> and y<sub>0</sub>=qsin</span><span
style='font-family:Symbol'>q</span><span style='font-family:"Times New Roman","serif"'>
, and the primed axes are in the coordinate rotated by an angle </span><span
style='font-family:Symbol'>q</span><span style='font-family:"Times New Roman","serif"'>
around z-axis (below) so that x’<sub>0</sub> =  x<sub>0</sub>cos</span><span
style='font-family:Symbol'>q + </span><span style='font-family:"Times New Roman","serif"'>y<sub>0</sub>
sin</span><span style='font-family:Symbol'>q  </span><span style='font-family:
"Times New Roman","serif"'>and y’<sub>0</sub> =  -x<sub>0</sub>sin</span><span
style='font-family:Symbol'>q + </span><span style='font-family:"Times New Roman","serif"'>y<sub>0</sub>
cos</span><span style='font-family:Symbol'>q .</span><span style='font-family:
"Times New Roman","serif"'> Note that the rotation angle is zero for x-y
symmetric elliptical Gaussian distribution</span><span style='font-family:Symbol'>.
</span><span style='font-family:"Times New Roman","serif"'>The  A is a
normalization factor.</span></p>

<p class=MsoNormal align=center style='text-align:center'><span
style='font-family:"Times New Roman","serif"'><img width=439 height=376
id="Object 1" src="sm_image023.gif"></span></p>

<p class=MsoNormal><span style='font-family:"Times New Roman","serif"'>&nbsp;</span></p>

<p class=MsoNormal><span style='font-family:"Times New Roman","serif"'>Now we
consider a numerical integration where each bins in </span><span
style='font-family:Symbol'>Q</span><span style='font-family:"Times New Roman","serif"'>
and R are <b>evenly </b>(this is to simplify the equation below) distributed by
</span><span style='font-family:Symbol'>DQ </span><span style='font-family:
"Times New Roman","serif"'>and </span><span style='font-family:Symbol'>D</span><span
style='font-family:"Times New Roman","serif"'>R, respectively, and it is
assumed that I(x’, y’) is constant within the bins which in turn becomes</span></p>

<p class=MsoNormal><img 
src="sm_image024.gif"></p>

<p class=MsoNormal>                                                                                                                                                                                <span
style='font-family:"Times New Roman","serif"'>(10)</span></p>

<p class=MsoNormal><span style='font-family:"Times New Roman","serif"'>Since we
have found the weighting factor on each bin points, it is convenient to
transform x’-y’ back to x-y coordinate (rotating it by -</span><span
style='font-family:Symbol'>q</span><span style='font-family:"Times New Roman","serif"'>
around z axis).  Then, for the polar symmetric smear,</span></p>

<p class=MsoNormal><img 
src="sm_image025.gif"><span
style='position:relative;top:35.0pt'>                                                         </span>(11)</p>

<p class=MsoNormal><span style='font-family:"Times New Roman","serif"'>where,</span></p>

<p class=MsoNormal><img 
src="sm_image026.gif"></p>

<p class=MsoNormal><span style='font-family:"Times New Roman","serif"'>while
for the x-y symmetric smear,</span></p>

<p class=MsoNormal><img 
src="sm_image027.gif"><span
style='font-family:"Times New Roman","serif"'>                                                                                          (12)</span></p>

<p class=MsoNormal><span style='font-family:"Times New Roman","serif"'>where,</span></p>

<p class=MsoNormal><img 
src="sm_image028.gif"></p>

<p class=MsoNormal><span style='font-family:"Times New Roman","serif"'>Here, the
current version of the SANSVIEW uses the Eq. (11) for 2D smearing assuming that
all the Gaussian weighting functions are aligned in the polar coordinate. </span></p>

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