A summary of the spreadsheet calculations is a follows:
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<u>A summary of the spreadsheet calculations is a follows:</u>
<ul>
<ul>
<li>Select a starting energy for the photon tagging array (highest γ energy to tag)</li>
<li>Select a starting energy for the photon tagging array (highest γ energy to tag)</li>
Line 154:
Line 154:
</ul>
</ul>
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[[Image:Bundle_support_displacement.jpg|center|thumb|400px|Figure : Sketch showing the X-displacement along the focal plane (Δx) from the center of the first fiber column to the center of the sixth fiber column of the first bundle support.]]
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[[Image:Bundle_support_displacement.jpg|right|thumb|400px|Figure : Sketch showing the X-displacement along the focal plane (Δx) from the center of the first fiber column to the center of the sixth fiber column of the first bundle support.]]
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Now we know the focal plane crossing locations for the first and sixth SciFi columns in our first bundle. Additionally, we know the β angle of the first bundle (noted as &beta<sub>avg</sub> above), which gives us the optimal alignment for each fiber in the bundle to their respective electron's path. The β angles for the first and sixth columns will be off by the same magnitude, but with opposite signs.
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[[Image:Beta_Manipulation-Model4.pdf|center|thumb|400px|Figure : Sketch showing the path of electrons that pass through the center of the fiber columns near the focal plane. At the back-end of the 2 cm. SciFi a misalignment of around 0.03 mm (with respect the the fiber's axis) results from using an averaged β angle for the bundle support location.]]